Gen3 dropped $20 TODAY: amzn.to/3BLmv3k Gen2 is still pretty good deal though: amzn.to/3sdr4P8 The Bosch FREAK remains one of the weirdest and most appropriately named tools we've tested. We're hoping for a Gen 4 some day so this fun never stops. They are getting better each time after all. Torque of TTC is working in product development for Astro Tools who make impact wrenches (air). Always consider multiple sources when looking at tools!
Simple explanation why adapter has more power, it's the same thing as having a breaker bar vs a regular ratchet wrench. Longer is better, it's why they tend to break because of more torque.
@@jlrockafella When you use a breaker bar the length of it is placed radially, and force i multiplied by the length so more of it makes more torque. When the length is on the axis of the bolt it just puts more material to be flexed and lose torque. That's the precise problem here, none of the other tools benefit from longer adapters.
I’m an electrical mechanic and my Bosch gen 2 is my go-to impact. It’s absolutely perfect for the work I do since I only need to use a half inch socket occasionally and when I do, it has enough beans for what I do, and I’m extremely pleased with it. Now my entire tool platform is Bosch and while not everything from them has been as good as this impact driver, I keep finding certain Bosch tools are absolute beasts and even the ones that aren’t are really quite well built and stand up beautifully to construction work.
Well, I'm still using the gen 1 I think. But I do woodworking and it's pretty perfect for assembling but I admit wasn't impressed when I first got it either but it's worked out nicely
The reason you get less torque with the anvil vs the adapter is because a hollow shaft under torsion deflects more than a solid one. The torsion is related to the cross section diameter to the 4th power. That would also explain why putting the broken bit in there helps. Full disclosure I’m a drivetrain engineer for Deere doing front axles.
i might be misunderstanding what you mean, been a hot minute since ive done anything relating to physics, but wouldn't this mean that when they tested a hollow socket vs solid ones, the hollow one should've made less? it ended up making quite a lot more, why do you think that is? im curious since you 100% know more about why it might've than i would
See, my thought was the play from the fit of the 1/4 hex is actually allowing the anvil to gain a fraction more speed before the head skips, which could generate more power. A tighter fit, in some cases wouldnt allow as much speed to accumulate on the anvil. Im probably mixing terms but maybe you can see what im thinking...
Been using bosch exclusively for 5 years as a contractor... All my drivers were prior to the Freaks release, never had any issues with them. When finally went looking for a high output impact, that was a transition point. Half Dewalt tools, bosch still going strong though. The Core battery's are wonderful, just expensive.
i'm pretty sure it's a harmonics /spring-mass system that helps on the hex adapter. like it gets twisted from 3-4 blows by the anvil and delivers that as one hard hit as the adapter can't take any more torsion.
I don't know why the torque numbers are low on the Freaks when not using an adapter but my Freak 2 has always been able to remove lugnuts on my cars including my full size truck which has a factory spec of 130 ft-lbs. It takes 4-5 seconds on each. The only one I was unable to remove with it was on an old Ranger which had its lugnuts over torqued by a small tire shop. For the record my 3/8 Craftsman CMCF910 was also unsuccessful at removing those
Would be good to see the freaks tested again with the 8ah battery's. It would be interesting to see how much that steps them up to complete with other brands
The combination 1/2" anvil with 1/4" hex adapter makes the bosch freak the top of my personal rank chart.... like +100 pounds just for that. Use it in the garage for everything. Not chasing ridiculous power (mostly use it on setting 1).
Bingo - this is why I own one as well. If I need big ugga-duggas I can buy something else, but the flexibility is unbeatable. Like you, mine lives on power setting 1. Mostly used for putting screws into/out of wood, doing up bolts on my trailer, building ikea furniture, working on my dirtbike, disassembling / reassembling whitegoods and other household tasks.
I absolutely love my Bosch Gen 2 Freak. I never really encounter super rusted bolts or similar requiring a lot of torque, mostly use mine when I have a lot of bolts to remove or snug up before torquing them with a torque wrench. Also really comes in handy when working on motorbikes as I can put in 1/4" hex bits for removing fairings, brake rotor bolts, and those kinda things. Not very powerful, but I don't need it to be. That's what I have my 3 foot breaker bar for :)
I'm thinking it maybe weight on the 1/2 anvil, hollowed out even with the broken adapter inside the anvil could still lack the weight per blow, I guess removing it and weighing it compared to a regular one would produce a potential answer
@@GudasWorld Mass in the middle doesn't contribute much energy since its smaller distance from the rotation axis means much lower linear speed than the outer diameter. Kinetic energy scales with linear speed squared, meaning that 2X the distance from center is 4X as much energy for a given amount of mass and there is a whole less mass in the middle in the first place. The difference likely has more to do with flex: the 1/4" bits go straight through to solid metal while the 1/2" anvil sits on top of the 1/4" quick-release mechanism, more metal to spring and soften blows. The insert reduces that flex. The theory should be easily verifiable: paint the insert and run the impact for 30 seconds. If the anvil is indeed twisting enough for the insert to make a difference in this manner, paint should be worn out in opposite directions at opposite ends.
@@GudasWorld The moment of inertia of a cylinder scales with the fourth power of radius. If you remove the inner half of a 1/2" cylinder, you lose only 1/16th of the kinetic energy. Also keep in mind that most of the mass at the largest radius from the rotation axis (highest moment of inertia) lies in the hammer mechanism, not in the bit attachment/anvil. You may not normally see it but it is still where the bulk of the impact magic is happening.
So close to 100k subscribers! It’s been awesome watching the channel grow and I’m happy to be a part of the team helping(moderating the chat). I’ve yet to actually delete a single comment. Not for the lack of trying tho. I read comments fairly often but we seem to have a good crowd… or you guys are just quick at removing bad comments yourselves. Lol. Anyway… I’m happy to see the success you’ve found here on UA-cam and I’m excited to see you hit the 500k and the 1 million numbers next. It will definitely happen. Especially since you are broadening the scope of what you cover. The audience will continue to grow. Thank you very much for all you do! 🙏 ❤️
At the end of the day for how compact it is, it seems like a more one tool does all/most for the average person. You can run the hex adapters for the small bits like a phillips head, allens, or torx. With that being said I can understand why the tool is not a powerhouse either, being most people would strip fasteners if it had a bunch of power. Also in the same breath you can swap over to light auto work and keep that tool shorter in length for tight spaces when you're looking to run sockets. Indeed I do believe having a hollowed out anvil is the culprit in seeing the difference from a socket adapter to running a straight socket on the anvil. More solid weight/steel is way more efficient at transferring energy than a hollowed void and a filled one with air gaps or room for the broken hex to move.
It is basically a dynamic amplification effect leveraging the torsional flexibility of that adaptor. I'm pretty sure this can be modeled with LS-DYNA (an explicit dynamics FE code) to prove it.
So... how does it _feel_ compare to the 1800c? The 1800c feel so finely tuned compared to my more expensive Makita, , Milwaukee or my Dewalt brushless drivers. That's where Bosch Succeeds. Durability, and Precision.
Agreed, although I have never owned anything Makita, I've had my fair share of Milwaukee and Dewalt tools, with some Ryobi and Craftsman also thrown in. Having said so, none of those impact drivers could match my Freak Gen 2 for lowest speed using the variable trigger. And that's super handy for driving small Philips head screws into soft wood or OSB
The funny thing about the insert helping is in some of Bosch’s advertisements they showed putting on a half inch socket while a bit was still inserted. So maybe they sorta already knew?🤷♂️
The Gen 2 was actually my first power tool purchase (along with the hammer drill in a kit) almost a year ago. Just use it to work on my small body pick up, and it serves me just fine. Not the strongest or fastest, but I got the 2 tool kit with 2 5A batteries, the charger and bag for ~$120 new.
At least in my country (Mexico), this november 2022 Home Depot had an special offer; they were giving a charger plus two 4.0 standard batteries with all 18 V bare tools at the price of a bare tool (albeit inflated), as if Bosch were happy to get rid of a lot of standard batteries, maybe to go out with the newer pricier "CORE" batteries... Unfortunately for us, Home Depot only sells here the low level, amateur grade tools here, the damn brushed gen 1.5 that is good only for the very smallest jobs...
I've used this model building pre-engineered metal buildings, and so far it's been great and I don't really have any complaints. It works well as a standard impact driver for screwing down wall/roof sheets, and the half inch drive on it is convenient and it's nice to have a light "Impact Wrench" considering I don't actually need the massive torque required by, say, a diesel mechanic pulling axles out. Obviously this tool wouldn't be fit for a proper large structural steel building frame, but that's not what I'm using it for. I can see why a lot of folks who actually NEED the sort of torque your average half inch impact would want would find this tool disappointing, but I like it.
Regarding the torque difference when using an adapter, I remember watching a video about torque sticks. The guy in the video complained why the sticks are considerably off when used on an impact wrench vs a pneumatic gun. There was an insightful comment from an engineer who explained that the impact per minute difference between the two means that the impact wrench can deliver higher torsional load on the stick which translates to higher torque on the bolt. I guess the adapter here acts like the stick and can help deliver more power. May be you could find a longer adapter and test if you could achieve still higher values.
I think the main thing to consider with an explanation like this is the “springy” nature of torque sticks. The torque stick elastically deforms under impact and it is designed to return to equilibrium before the next blow. Cordless impact wrenches typically have a higher IPM which means that they will most likely have another impact before the torque stick has fully reached eq, thats why they can produce more torque than a lower IPM pneumatic gun. From my insight, which could be totally wrong, I think that the hex adapter, while stronger, will not be strong enough to mitigate any torsional deflection. Thats where I am baffled by the phenomenon seen.
The same impact in the video also survived getting soaked with water and fire suppressant for about 30 minutes solid while they were trying to put out a press fire at the saw mill. It was in there with two DeWalts and my M18 3/8 Fuel also, one of the DeWalts didn’t survive the water test though. I use the freak all the time because it’s convenient for lots of situations.
Seems like if your rank charts use the torque numbers with the adapter, that you should use the length of the tool with the adapter. Can't have it both ways.
Love my freak. And even though I wish it had more beans, I like how light and controllable it is.... I seem to grab it for light duty stuff over my Milwaukee stubby.... And yes I wish it was 3/8" as that's more suitable for this torque range
Not sure if I have a gen 1 or 2 but I love mine for tasks around the house. Driving long screws and lag screws it is fantastic. I'm a diesel tech by trade so I've got breaker bars and air impacts for the heavy stuff.
I have a test I performed with my Makita XWT17Z 1/2 inch impact using 5 AH battery at full charge, removing 10 lugnuts from a Budd wheel that are torqued at 450 ft/lbs. took a full battery 2 minutes 10 seconds to remove all 10, took a full battery 1 minute 29 seconds to reinstall with the same battery then another full battery took them all up over 300 ft/lbs. torque in 4 minutes before the battery had dropped to 50%. Makita, to me, is the best tool overall and 18V batteries for every tool I have makes it easy for charging and each new tool I get from this point on will be powered with 18V Makita batteries. All other tools I have are Snap On but Makita is my cordless tool choice and will never change.
I used to always run my old GDX with a ph2 inside at the same time as a 17mm socket, as these were the two fasteners I used mostly at the time. I’m getting really tempted to sell my M12 FID and get another GDX.
Do you have a way to count the number of impacts with and without the socket extension? My theory is that the harmonics are being modified enough with the extension that you end up with more hits.
You should try a test with 1 driver, 2 half-inch adapters, but on one adapter, tack weld one of those broken ¼" drive stems to it. If that little bit of extra weight can up the torque by 8 ft/lbs with the gen 3 freak, then that means that the weight of that ¼" drive stem that you added to the freak to "fill the void" is what actually produced the extra torque.
If a tool company would make a quick change anvil for a 1/4” driver, 3/8 drive and a 1/2” compact all in one, I would definitely buy one. Not like a Bosch freak but a quick change anvils that are solid in the center
Bosch is breaking the laws of physics again. They are probably laughing over at R&D right now...freaks indeed. Bet they have some of the best parlor tricks, though!
Four years and no problem with my Bosch impact drivers. But I have the gdr version that has 1/4 collet only so it's not considered a freak. Bosch makes 2 versions of all their impacts gdr - 1/4 collet only, gdx - freak version. Every one of the freaks you've tested has 1/4 collet version like gdr 18v 1860, 1800 and the original freak except they are sometimes not available in U. S.
I'm sure you're on it, but I'm very interested in seeing how the new Bauer brushless driver performs. Smaller than before, supposedly more power, and still a cheap deal at $50, it should be interesting to find out whether it moves higher than the brushed model.
Is it possible that the red collar is not turning with the socket and is actually in contact with the socket thereby taking torque away due to the red collar creating friction on the socket?
Cool test as usual, great content! I suspect the biggest reason the adapter gives higher torque is the difference of diameter in which the torque is applied. With the adapter in, it's getting torque applied closer to the center line where as the torque is applied to the outer edge of the anvil to the socket... essentially shortening the lever...
This reasoning makes no sense, it's driving the adapter closer to the centre but the adapter has to drive the socket via the normal 1/2 inch square. This would be like saying a thin extension bar on your breaker bar would provide a torque advantage over a thick one.
Always wondered, what's the sheering point of the anvils on a modern impact wrench. I've seen worn anvils...but curiously, never broken. With torque numbers being what they are, how much more can say a 1/2" anvil take?
Interesting. I think your answer is this: yes, as some other commenters have intimated - w/o the adapter the hammer-action is falling upon a very rigid anvil/mass. With that adapter, there is a bit of flex, and the frequency of the hammer-blows is lucky, it is hitting that anvil just as the mass is bouncing-back from that flexation (sorry for the awkward wording here). Experiment: try - if you can - to fabricate several adapters that are similar to that Bosch adapter, but forge them with varying amounts of flex. (I realize this is not an easy task). And then tabulate the results, max torque vs degree of flex in the adapter. This should prove or disprove the theory. I'd bet that's what it is.
Considering we know it limits forward torque in modes 1 and 2 perhaps it also limits it in mode 3 and having the adapter vs not is changing the feedback the tool is getting. I.e with the adapter the tool sees a lower torque being applied so it gives more beans, without the adapter it sees a higher torque being applied and holds back more of those angry pixies🤔
@@TorqueTestChannel after some thought if this where the case you may see this scale with the modes seeing a similar drop of 15% giving around 25 ft lbs in mode 1 for example
@@TorqueTestChannel One way to verify this would be to put the equivalent Bosch impact wrench on the dyno. The GDS18V-1860 impact wrench has the same specs as the GDX18V-1860 impact driver, as seen in the spec page from the manual in the video at 8:05. Based on what we're seeing in your tests, my guess is that the GDS wrench would make more power than the GDX driver, and that would strongly suggest David Dixon's hypothesis is correct. Unfortunately it does not appear that the GDS wrench is available for sale yet. It's not even listed on Bosch's website. By the way, Lowes has the new GDS18V-1860 priced at $129 (same as Amazon), but you get a "free" 4.0Ah battery kit (with a pretty good charger).
I agree. That Bluetooth app ‘thing’.. pretty cool. But how many people in a construction 🚧 or automotive tech. Industry are REALLY going go through the trouble of doing all of that. Although, I don’t exactly know WHAT industry or “person” this specific product is targeted at.. 🤔
The lock out is targeted at union jobsites where there are 100s of tools and potential thieves. If it won't start, you can't use it or sell it. The torque control is for people doing repetitive actions that require a certain torque. Could be on an assembly line for small machinery or something. I personally had fun with the first dewalt batteries that had bluetooth because I downloaded the app unbeknownst to my boss at the time and he would be drilling something at the top of a ladder and I could shut it off. Other than laughs, no real use for us.
The foreman that just got his box broken into is going to use the app for himself and his top guys. And you don’t have to buy it, it’s a module you put in the tool handle if you want it.
Generally speaking, the bluetooth features in most tools are initially targetted to fleet managers, doing largely standardized tasks that can benefit from custom settings, as well as benefit from lockout (for thieves or locking out defective tools), and tracking. It’s on Marketing that it’s marketed towards consumers now.
I dont know the Situation In the us nur in Germany Bosch offers 3 Options of this impact GDR with 1/4“ hex driver, GDS with 1/2“ Drive und the GDX with the Combination anvil
Would be interesting to see that tool+adapter in slow-mo because i suspect the reason for slightly higher torque is that the long adapter sort of springs back all of the tool's internals that are then caught and accelerated by the hammer, essentially adding to it's mass. A way to test that theory would be to put your finger on the tool's square and feeling for the bounce-back, as well as actually preventing it in a subsequent test.
Only way to test is drill out harden steel anvil to test vs regular anvil to answer if this would cause a difference. Tbh strength and rigid ness is different from square and tube style shafts. Example drive shafts on cars / helicopters are tubes taking twisting forces and flexing under load staying relatively straight and stout buildings use I beams not designed to take twisting forces I beams are relatively square not round. I bet there is mass loss and flex under load causing loss tbh but it’s a theory.
my thoughts are that is both the added mass of the adaptor in addition to more slack in the hammering actuation due to the additional fitting. great video, thanks.
I'm a bricklayer and bought a bosch SDS hammer drill for drilling wall starter kits and cleaning any dried mortar from brick amd block recently, got charger and battery with the drill. Was well impressed woth it for the price so bought a circle saw as it was reduced to a great price and bought a 2more batteries. Now I've the bosch freak gen 3 now lol I really rate bosch tools for their quality build amd pricing
Great content. Your vid made me hesitate on buying the gen 2, but considering I was upgrading from porter cable for under $100 I’m glad I did. Hopefully Bosch sees your videos and corrects their next version and maybe issues a bit to correct previous versions
I love my Gen 2, gets off the lug nuts, but not the break bolts. Use it mostly as an impact driver. Very sturdy tool, have the larger Bosch impact wrench with the 'stacked' 8Ah cells for the heavy jobs.
I've got a gen1 freak that I got as part of a combo pack with a hammer drill, 2 batteries, charger, and carry bag for $99 over 6 years ago. I love it. It's a fantastic impact driver, but a lackluster impact wrench. Never had any issues with it driving screws, and it's adequate for light duty impact wrenching, just know it's limits, you're not going to be changing tires with this thing.
I have in fact changed tires with my gen 2. Swapped all 4 from a compact pickup truck. Only 1 or 2 lugnuts were stubborn enough to require breaker bar. I don't know how much torque did the tire shop set those to.
Do those sockets push up against that red collar? I was thinking maybe it could be creating some extra friction. That's one of the other major differences I see on the Bosch vs other impacts, that weird collar
I work in installing solar panels would this impact drill would be good enough for the type of work I do ?? Milwaukee and dewalt are kind of out of my budget right now
the GDX18V-200C is basically the same Gen 2 GDX18V-1800C we get in North America. 200Nm is roughly 1800 in-lbs. The new Freak is known as GDX18V-210C in countries using metric system
Have you ever experienced trying to loosen a Phillips or slotted screw with a regular length screwdriver and then tried a much longer screwdriver and the screw comes loose ?
Great review! Just one question. Can you do all 3 tests without the adapter as well? I know that is gives more with it, but the data without would be very usefull, it being 2 Inch shorter without. And for me as a professional home owner that two in one would be great if its strong enough.
Maybe using the adapter gives more power because the power is transferred from the outside in? Whereas using the anvil it’s transferring torque from the inside out? Maybe this makes a difference due to the angle of torque transfer?
Is it just mass? What if you went through the Totally Enjoyable work of milling a tungsten hex insert and test that? Can you make your adapter much heavier? Can you make the socket much heavier? For the big cash throw away, what if all parts are welded. Socket to bolt, socket to wrench. This would remove any tiny amounts of acceleration a heavier socket back hookup would give you with a little looseness at the nut. Accelerating more weight means hitting harder. Everything welded in place would test this.
I have the Ryobi 2,200 in. Lb impact driver P238VN… have y’all tested that? I’d love to see what it can do with the 9aH battery (unless all it does is snap the adapters) If I mail it in, how long does it take to get it back? I kinda use it a LOT.
@@kevinragsdale6256 I’ve already broken 3 of the Ryobi 1/2” socket adapters, a Dewalt adapter, a Milwaukee adapter and a package of harbor freight adapters. 🤷♂️
Fascinating results. Still glad we went for the Gen2 kit for father in law at 99. Neat to see a non-anti theft usage of Bluetooth on a tool, that does sound darn useful. Ok and that was a chef kiss level 69 joke, without even saying "nice"
Hey guys I have a question. Can I use the Bosch Freak in a regular drilling application, as in, Say i need to gently drill into a broken bolt with a left hand drill bit. Will this device be gentle enough to do that slowly? Or is it too hammery
Bosh tools don’t die we have dropped the 100ft off lifts ran them over with forklifts and still using them, they are lighter and smoother to use then most.
Dont have an impact, But I have a Bosch drill and batteries (I love it) I am a home owner, and use these tools occasionally, and thought to get an impact for a wood yard build project (swing set for the kids) I have a chance to buy the Gen1.5 for 1/3 the cost of a gen 2 Is it good enough for a casual user such as myself ? or is it way underpowered ? or am I better off buying a GDR 18v-1600 for 2/3 the price of a GDX 18v-1600 ?
What in the world... the insert worked! Crazy talk. I wonder if it would work even closer to the adapter if the insert was a high mass metal...tungsten maybe?
The difference in torque you observed during your tests is caused by mass. The built-in driver had the least amount of mass, the broken adapter had slightly more and the functioning adapter had the most. The functioning adapter with the socket weighed the most so suffered less deflection during the test resulting in a higher achieved torque
Are you doing the tests in the same order? If so, there could be some battery/motor heat effects. You should redo the 3 tests (with adaptor, without adapter, with broken adapter) with 1 hour break between each test. Charge battery straight after each test and let it rest. Not saying that you're wrong, just want to remove as many variables as possible.
Is the variance between adapter & no adapter something to do with the 'weight' of the socket/load? TRy finding a combination if lighter bit + extension, that equals in weight to a larger single socket. I'd guess it'd act the same.
From experience the socket adapters suck in the real world as they break after any real use like if you try and take off suspension parts they are toast. I gave up on them long ago and finally got an impact wrench.
There’s a new Bosch impact driver, the gdr 18v220c in Europe. Be cool to see you guys test their updated model to see if it’s any better. Some guys in the states have gotten it off of eBay
Thank you so much for the video. I have model IDH182 and the original manual, but don't have a break-down for the Torque on each of the individual settings. However, I was reading a review from a blogger, on this particular tool, where one of the "Cons" is that the Torque is the same on all settings. Is this possible, even though the 3 settings are obviously different speeds? If not, why Bosch would not include the individual Torque on this model (unless the blogger is correct) and where can I find a source that can tell me the torque for each setting?
Could it have anything to do with the fact that the the adapter is "geared " lower with the smaller diameter shaft being directly driven from the center of the driver and not the larger diameter direct connector?
Great and very interesting review. Ive got the original good looking gdx 😂. Had it from when it first came out. Cant believe it's still going to be honest. Fantastic tool.
Why can’t bosch make the freaks more competitive? 3rd gen needed at least 30% more power, not 3%. The design is genius and I would love a 3/8” compact freak with the bit driver but it would be great with double the power…and with the 2.0ah battery. Reliable smaller batteries with high discharge/charge rates for quick charging while under heavy sustained use should be offered by most of the major companies. When you have to use the tool overhead for hours at a time, but you need high output, a reliable powerful 1.5/2.0 battery should be the priority. Thanks for testing these and making the commentary entertaining.
I think it is worth mentioning that the 2nd and 3rd gen Freaks already have enough torque to snap hex adapters. TTC has several videos that show adapters being broken regularly. Take the Flex vs. Milwaukee impact driver showdown for example: ua-cam.com/video/HTGrYkF3khw/v-deo.html and ua-cam.com/video/HTGrYkF3khw/v-deo.html and ua-cam.com/video/HTGrYkF3khw/v-deo.html My guess is that manufacturers are trying to balance power with user experience/satisfaction, and don't want customers breaking a dozen impact adapters in a day's work. In reality, 150 ft-lb is plenty to drive all but the largest lag bolts, so packing more power into impact drivers is just asking to snap hex adapters (not to mention lower-quality screws). In short, I don't think you actually want a Freak with 300 ft-lbs of torque. It would snap adapters (and smaller/cheaper screws) like crazy. What makes more sense to me is a moderately-powered impact driver (150 - 175 ft-lbs) and a separate impact wrench for use with sockets.
@@GAMP-b2s OMG thank you. So many people just want MOAR POWA in every tool. I use a oil impact for the lower noise and despite having 1/4 of the peak torque, it happily puts 14G tek screws in 3mm (1/8") steel. Most impacts these days are absurdly overpowered when they spend 99% of their time putting in 10-14g screws, but people froth over their ability to undo lug nuts on trucks when almost no one uses them for that. I'd much prefer they made impacts smaller and quieter rather than more powerful, but big numbers gets clicks on youtube and sales at the store.
Stop watching Dewalt commercials lol, stacked lithium is here in the power tool sector but let’s see if Dewalt or flex can make a five amp hour stack lithium before we ask Bosch to change, because right now they use 21700 cells and the 4ah batteries that come with the bare tools are pretty compact
@@6atlantis they have recently released exactly that: a 5 Ah Powerstack battery. They're insanely powerful, but pouch cells are notorious in the RC world for bulging and getting on fire. The same goes for laptops and phones, so I'd wait and see what the experiences will be before wanting other manufacturers to implement the same technology. So far, only Flex seems to follow them. For me, a single row 21700 battery like the 4 Ah Core one is powerful and compact enough for compact tools and has far better runtime than a 1.7 Ah Powerstack one.
@@macvos I didn't like how the 5Ah stacked lithium battery is almost the same size as the 5Ah 2 row battery with 18650 cells.It almost defeats its purpose other than the extra oomph. Same with Flex where a 6Ah stacked lithium battery is about the same as their regular 5Ah if not bigger
U should try PARKSIDE tools popular in eu 226Nm performance line cost like 65$ bare tool (battery is around 20$) that looks and works like dewalt dcf 850
They are very good for the price, but seem to have high malfunction rates and QA/QC problems, with some machines seemingly going on forever and a lot of them dying after a relatively short time of serious use.
I would love to have an anvil like that on every tool I own. I love the option of drill bits and not having to hunt for the hex chuck to 3/8ths adapter
Is the square even half inch? Perhaps it's so loose on the socket it just looses all it's power. Not a problem on normal wrenches but an impact could really get hurt by that.
could it just be down to the added mass? maybe the anvil is just too small in the tool. Also, would love to see some petrol powered big boys that i have come across and see of they compare
Gen3 dropped $20 TODAY: amzn.to/3BLmv3k Gen2 is still pretty good deal though: amzn.to/3sdr4P8
The Bosch FREAK remains one of the weirdest and most appropriately named tools we've tested. We're hoping for a Gen 4 some day so this fun never stops. They are getting better each time after all.
Torque of TTC is working in product development for Astro Tools who make impact wrenches (air). Always consider multiple sources when looking at tools!
Any chance you could do the Metabo Hpt Triple hammer sometime? I know its a bit older but I really want to see how the 3 hammers effects the graph.
@@zerodpi671 triple hammer is an odd one. Digging into it
Simple explanation why adapter has more power, it's the same thing as having a breaker bar vs a regular ratchet wrench. Longer is better, it's why they tend to break because of more torque.
@@jlrockafella he's show in past videos extensions actually decrease power.
@@jlrockafella When you use a breaker bar the length of it is placed radially, and force i multiplied by the length so more of it makes more torque. When the length is on the axis of the bolt it just puts more material to be flexed and lose torque. That's the precise problem here, none of the other tools benefit from longer adapters.
Not only great tool reviews, but humor to boot!
I’m an electrical mechanic and my Bosch gen 2 is my go-to impact. It’s absolutely perfect for the work I do since I only need to use a half inch socket occasionally and when I do, it has enough beans for what I do, and I’m extremely pleased with it. Now my entire tool platform is Bosch and while not everything from them has been as good as this impact driver, I keep finding certain Bosch tools are absolute beasts and even the ones that aren’t are really quite well built and stand up beautifully to construction work.
They’re starting to come out with much more tools as well, they’re definitely investing in the line!
Well, I'm still using the gen 1 I think. But I do woodworking and it's pretty perfect for assembling but I admit wasn't impressed when I first got it either but it's worked out nicely
Bosch tools are great, though they do tend to overrate them for some reason
The reason you get less torque with the anvil vs the adapter is because a hollow shaft under torsion deflects more than a solid one. The torsion is related to the cross section diameter to the 4th power. That would also explain why putting the broken bit in there helps. Full disclosure I’m a drivetrain engineer for Deere doing front axles.
i might be misunderstanding what you mean, been a hot minute since ive done anything relating to physics, but wouldn't this mean that when they tested a hollow socket vs solid ones, the hollow one should've made less? it ended up making quite a lot more, why do you think that is? im curious since you 100% know more about why it might've than i would
Es raro que sea al revés en ves del yunque hueco transmitir menos torque
but the diameter doesnt change from filling in the middle
@@polygorg cross section, not diameter.
See, my thought was the play from the fit of the 1/4 hex is actually allowing the anvil to gain a fraction more speed before the head skips, which could generate more power. A tighter fit, in some cases wouldnt allow as much speed to accumulate on the anvil. Im probably mixing terms but maybe you can see what im thinking...
I'm just impressed in how the 1/4" drive doesn't just snap at these torque levels.
Been using bosch exclusively for 5 years as a contractor... All my drivers were prior to the Freaks release, never had any issues with them. When finally went looking for a high output impact, that was a transition point. Half Dewalt tools, bosch still going strong though. The Core battery's are wonderful, just expensive.
Bosch to Milwaukee for me.
i'm pretty sure it's a harmonics /spring-mass system that helps on the hex adapter.
like it gets twisted from 3-4 blows by the anvil and delivers that as one hard hit as the adapter can't take any more torsion.
I don't know why the torque numbers are low on the Freaks when not using an adapter but my Freak 2 has always been able to remove lugnuts on my cars including my full size truck which has a factory spec of 130 ft-lbs. It takes 4-5 seconds on each.
The only one I was unable to remove with it was on an old Ranger which had its lugnuts over torqued by a small tire shop. For the record my 3/8 Craftsman CMCF910 was also unsuccessful at removing those
Would be good to see the freaks tested again with the 8ah battery's. It would be interesting to see how much that steps them up to complete with other brands
You guys should drill a hole into a socket adapter the same size as the shank and see if it loses noticable power in different impact drivers
The combination 1/2" anvil with 1/4" hex adapter makes the bosch freak the top of my personal rank chart.... like +100 pounds just for that. Use it in the garage for everything. Not chasing ridiculous power (mostly use it on setting 1).
Bingo - this is why I own one as well. If I need big ugga-duggas I can buy something else, but the flexibility is unbeatable. Like you, mine lives on power setting 1. Mostly used for putting screws into/out of wood, doing up bolts on my trailer, building ikea furniture, working on my dirtbike, disassembling / reassembling whitegoods and other household tasks.
I absolutely love my Bosch Gen 2 Freak. I never really encounter super rusted bolts or similar requiring a lot of torque, mostly use mine when I have a lot of bolts to remove or snug up before torquing them with a torque wrench. Also really comes in handy when working on motorbikes as I can put in 1/4" hex bits for removing fairings, brake rotor bolts, and those kinda things. Not very powerful, but I don't need it to be. That's what I have my 3 foot breaker bar for :)
That's what people with weak tools say
I'm thinking it maybe weight on the 1/2 anvil, hollowed out even with the broken adapter inside the anvil could still lack the weight per blow, I guess removing it and weighing it compared to a regular one would produce a potential answer
@@GudasWorld Mass in the middle doesn't contribute much energy since its smaller distance from the rotation axis means much lower linear speed than the outer diameter. Kinetic energy scales with linear speed squared, meaning that 2X the distance from center is 4X as much energy for a given amount of mass and there is a whole less mass in the middle in the first place. The difference likely has more to do with flex: the 1/4" bits go straight through to solid metal while the 1/2" anvil sits on top of the 1/4" quick-release mechanism, more metal to spring and soften blows. The insert reduces that flex.
The theory should be easily verifiable: paint the insert and run the impact for 30 seconds. If the anvil is indeed twisting enough for the insert to make a difference in this manner, paint should be worn out in opposite directions at opposite ends.
@@GudasWorld The moment of inertia of a cylinder scales with the fourth power of radius. If you remove the inner half of a 1/2" cylinder, you lose only 1/16th of the kinetic energy. Also keep in mind that most of the mass at the largest radius from the rotation axis (highest moment of inertia) lies in the hammer mechanism, not in the bit attachment/anvil. You may not normally see it but it is still where the bulk of the impact magic is happening.
So close to 100k subscribers! It’s been awesome watching the channel grow and I’m happy to be a part of the team helping(moderating the chat). I’ve yet to actually delete a single comment. Not for the lack of trying tho. I read comments fairly often but we seem to have a good crowd… or you guys are just quick at removing bad comments yourselves. Lol. Anyway… I’m happy to see the success you’ve found here on UA-cam and I’m excited to see you hit the 500k and the 1 million numbers next. It will definitely happen. Especially since you are broadening the scope of what you cover. The audience will continue to grow. Thank you very much for all you do! 🙏 ❤️
At the end of the day for how compact it is, it seems like a more one tool does all/most for the average person. You can run the hex adapters for the small bits like a phillips head, allens, or torx. With that being said I can understand why the tool is not a powerhouse either, being most people would strip fasteners if it had a bunch of power. Also in the same breath you can swap over to light auto work and keep that tool shorter in length for tight spaces when you're looking to run sockets. Indeed I do believe having a hollowed out anvil is the culprit in seeing the difference from a socket adapter to running a straight socket on the anvil. More solid weight/steel is way more efficient at transferring energy than a hollowed void and a filled one with air gaps or room for the broken hex to move.
3:49 script had me dying!!! 🤣 5 sec 🤣🤣🤣
It is basically a dynamic amplification effect leveraging the torsional flexibility of that adaptor. I'm pretty sure this can be modeled with LS-DYNA (an explicit dynamics FE code) to prove it.
So... how does it _feel_ compare to the 1800c? The 1800c feel so finely tuned compared to my more expensive Makita, , Milwaukee or my Dewalt brushless drivers.
That's where Bosch Succeeds. Durability, and Precision.
Agreed, although I have never owned anything Makita, I've had my fair share of Milwaukee and Dewalt tools, with some Ryobi and Craftsman also thrown in.
Having said so, none of those impact drivers could match my Freak Gen 2 for lowest speed using the variable trigger. And that's super handy for driving small Philips head screws into soft wood or OSB
The funny thing about the insert helping is in some of Bosch’s advertisements they showed putting on a half inch socket while a bit was still inserted. So maybe they sorta already knew?🤷♂️
The Gen 2 was actually my first power tool purchase (along with the hammer drill in a kit) almost a year ago. Just use it to work on my small body pick up, and it serves me just fine. Not the strongest or fastest, but I got the 2 tool kit with 2 5A batteries, the charger and bag for ~$120 new.
Are you sure they’re not 4ah batteries?
@@6atlantis you are right, my bad
At least in my country (Mexico), this november 2022 Home Depot had an special offer; they were giving a charger plus two 4.0 standard batteries with all 18 V bare tools at the price of a bare tool (albeit inflated), as if Bosch were happy to get rid of a lot of standard batteries, maybe to go out with the newer pricier "CORE" batteries... Unfortunately for us, Home Depot only sells here the low level, amateur grade tools here, the damn brushed gen 1.5 that is good only for the very smallest jobs...
I've used this model building pre-engineered metal buildings, and so far it's been great and I don't really have any complaints. It works well as a standard impact driver for screwing down wall/roof sheets, and the half inch drive on it is convenient and it's nice to have a light "Impact Wrench" considering I don't actually need the massive torque required by, say, a diesel mechanic pulling axles out.
Obviously this tool wouldn't be fit for a proper large structural steel building frame, but that's not what I'm using it for. I can see why a lot of folks who actually NEED the sort of torque your average half inch impact would want would find this tool disappointing, but I like it.
Regarding the torque difference when using an adapter, I remember watching a video about torque sticks. The guy in the video complained why the sticks are considerably off when used on an impact wrench vs a pneumatic gun. There was an insightful comment from an engineer who explained that the impact per minute difference between the two means that the impact wrench can deliver higher torsional load on the stick which translates to higher torque on the bolt. I guess the adapter here acts like the stick and can help deliver more power. May be you could find a longer adapter and test if you could achieve still higher values.
I think the main thing to consider with an explanation like this is the “springy” nature of torque sticks. The torque stick elastically deforms under impact and it is designed to return to equilibrium before the next blow. Cordless impact wrenches typically have a higher IPM which means that they will most likely have another impact before the torque stick has fully reached eq, thats why they can produce more torque than a lower IPM pneumatic gun. From my insight, which could be totally wrong, I think that the hex adapter, while stronger, will not be strong enough to mitigate any torsional deflection. Thats where I am baffled by the phenomenon seen.
The same impact in the video also survived getting soaked with water and fire suppressant for about 30 minutes solid while they were trying to put out a press fire at the saw mill. It was in there with two DeWalts and my M18 3/8 Fuel also, one of the DeWalts didn’t survive the water test though. I use the freak all the time because it’s convenient for lots of situations.
Seems like if your rank charts use the torque numbers with the adapter, that you should use the length of the tool with the adapter. Can't have it both ways.
Hmm that's true
Love my freak. And even though I wish it had more beans, I like how light and controllable it is.... I seem to grab it for light duty stuff over my Milwaukee stubby.... And yes I wish it was 3/8" as that's more suitable for this torque range
Tripping the stubby sets the standard for compact tools
Would love to see how Metabo HPT/HiKoki's triple hammer fares against these. The gen3 came out recently in Japan
Not sure if I have a gen 1 or 2 but I love mine for tasks around the house. Driving long screws and lag screws it is fantastic. I'm a diesel tech by trade so I've got breaker bars and air impacts for the heavy stuff.
Humor with the flat and straight delivery is what i came for…
I have a test I performed with my Makita XWT17Z 1/2 inch impact using 5 AH battery at full charge, removing 10 lugnuts from a Budd wheel that are torqued at 450 ft/lbs. took a full battery 2 minutes 10 seconds to remove all 10, took a full battery 1 minute 29 seconds to reinstall with the same battery then another full battery took them all up over 300 ft/lbs. torque in 4 minutes before the battery had dropped to 50%. Makita, to me, is the best tool overall and 18V batteries for every tool I have makes it easy for charging and each new tool I get from this point on will be powered with 18V Makita batteries. All other tools I have are Snap On but Makita is my cordless tool choice and will never change.
I used to always run my old GDX with a ph2 inside at the same time as a 17mm socket, as these were the two fasteners I used mostly at the time. I’m getting really tempted to sell my M12 FID and get another GDX.
Do you have a way to count the number of impacts with and without the socket extension? My theory is that the harmonics are being modified enough with the extension that you end up with more hits.
You should try a test with 1 driver, 2 half-inch adapters, but on one adapter, tack weld one of those broken ¼" drive stems to it. If that little bit of extra weight can up the torque by 8 ft/lbs with the gen 3 freak, then that means that the weight of that ¼" drive stem that you added to the freak to "fill the void" is what actually produced the extra torque.
If a tool company would make a quick change anvil for a 1/4” driver, 3/8 drive and a 1/2” compact all in one, I would definitely buy one. Not like a Bosch freak but a quick change anvils that are solid in the center
Can you check the accuracy of a torque wrench being used on a 3/8 or 1/2-inch drive crawfoot wrench? Thanks.
Bosch is breaking the laws of physics again. They are probably laughing over at R&D right now...freaks indeed. Bet they have some of the best parlor tricks, though!
Four years and no problem with my Bosch impact drivers. But I have the gdr version that has 1/4 collet only so it's not considered a freak. Bosch makes 2 versions of all their impacts gdr - 1/4 collet only, gdx - freak version. Every one of the freaks you've tested has 1/4 collet version like gdr 18v 1860, 1800 and the original freak except they are sometimes not available in U. S.
Nice video, I have had the 1.5 for years now and it shows it.. but hasn't let me down yet!
Very weird that with the adapter it applies more torque.
I'm sure you're on it, but I'm very interested in seeing how the new Bauer brushless driver performs. Smaller than before, supposedly more power, and still a cheap deal at $50, it should be interesting to find out whether it moves higher than the brushed model.
Is it possible that the red collar is not turning with the socket and is actually in contact with the socket thereby taking torque away due to the red collar creating friction on the socket?
Cool test as usual, great content! I suspect the biggest reason the adapter gives higher torque is the difference of diameter in which the torque is applied. With the adapter in, it's getting torque applied closer to the center line where as the torque is applied to the outer edge of the anvil to the socket... essentially shortening the lever...
Then why does the Milwaukee make more with a 1/2" anvil?
@@TorqueTestChannel Inertia and heavier weight in the 1/2? Are they 100% interchangeable?
This reasoning makes no sense, it's driving the adapter closer to the centre but the adapter has to drive the socket via the normal 1/2 inch square. This would be like saying a thin extension bar on your breaker bar would provide a torque advantage over a thick one.
Always wondered, what's the sheering point of the anvils on a modern impact wrench. I've seen worn anvils...but curiously, never broken. With torque numbers being what they are, how much more can say a 1/2" anvil take?
Interesting. I think your answer is this: yes, as some other commenters have intimated - w/o the adapter the hammer-action is falling upon a very rigid anvil/mass. With that adapter, there is a bit of flex, and the frequency of the hammer-blows is lucky, it is hitting that anvil just as the mass is bouncing-back from that flexation (sorry for the awkward wording here).
Experiment: try - if you can - to fabricate several adapters that are similar to that Bosch adapter, but forge them with varying amounts of flex. (I realize this is not an easy task). And then tabulate the results, max torque vs degree of flex in the adapter. This should prove or disprove the theory. I'd bet that's what it is.
Considering we know it limits forward torque in modes 1 and 2 perhaps it also limits it in mode 3 and having the adapter vs not is changing the feedback the tool is getting. I.e with the adapter the tool sees a lower torque being applied so it gives more beans, without the adapter it sees a higher torque being applied and holds back more of those angry pixies🤔
I like it. One of the few explanations as to why Milwaukee might be different
@@TorqueTestChannel after some thought if this where the case you may see this scale with the modes seeing a similar drop of 15% giving around 25 ft lbs in mode 1 for example
@@TorqueTestChannel One way to verify this would be to put the equivalent Bosch impact wrench on the dyno. The GDS18V-1860 impact wrench has the same specs as the GDX18V-1860 impact driver, as seen in the spec page from the manual in the video at 8:05. Based on what we're seeing in your tests, my guess is that the GDS wrench would make more power than the GDX driver, and that would strongly suggest David Dixon's hypothesis is correct. Unfortunately it does not appear that the GDS wrench is available for sale yet. It's not even listed on Bosch's website.
By the way, Lowes has the new GDS18V-1860 priced at $129 (same as Amazon), but you get a "free" 4.0Ah battery kit (with a pretty good charger).
I agree. That Bluetooth app ‘thing’.. pretty cool. But how many people in a construction 🚧 or automotive tech. Industry are REALLY going go through the trouble of doing all of that.
Although, I don’t exactly know WHAT industry or “person” this specific product is targeted at.. 🤔
I'd rather pay the same for a "dumb" impact that makes more power. I have one impact wrench with multiple settings and I never use them. Stays on high
The lock out is targeted at union jobsites where there are 100s of tools and potential thieves. If it won't start, you can't use it or sell it. The torque control is for people doing repetitive actions that require a certain torque. Could be on an assembly line for small machinery or something. I personally had fun with the first dewalt batteries that had bluetooth because I downloaded the app unbeknownst to my boss at the time and he would be drilling something at the top of a ladder and I could shut it off. Other than laughs, no real use for us.
The foreman that just got his box broken into is going to use the app for himself and his top guys. And you don’t have to buy it, it’s a module you put in the tool handle if you want it.
Generally speaking, the bluetooth features in most tools are initially targetted to fleet managers, doing largely standardized tasks that can benefit from custom settings, as well as benefit from lockout (for thieves or locking out defective tools), and tracking.
It’s on Marketing that it’s marketed towards consumers now.
I dont know the Situation In the us nur in Germany Bosch offers 3 Options of this impact GDR with 1/4“ hex driver, GDS with 1/2“ Drive und the GDX with the Combination anvil
What if you put the socket on, then the socket adapter?
Would be interesting to see that tool+adapter in slow-mo because i suspect the reason for slightly higher torque is that the long adapter sort of springs back all of the tool's internals that are then caught and accelerated by the hammer, essentially adding to it's mass.
A way to test that theory would be to put your finger on the tool's square and feeling for the bounce-back, as well as actually preventing it in a subsequent test.
I have the same trick anvil on my fake Makita - wondering if it does the same with the socket adapter.
Thank you for testing the theory
Felt a mass/ weight reduction from hollow anvil was a limiting factor.
Only way to test is drill out harden steel anvil to test vs regular anvil to answer if this would cause a difference.
Tbh strength and rigid ness is different from square and tube style shafts. Example drive shafts on cars / helicopters are tubes taking twisting forces and flexing under load staying relatively straight and stout buildings use I beams not designed to take twisting forces I beams are relatively square not round. I bet there is mass loss and flex under load causing loss tbh but it’s a theory.
my thoughts are that is both the added mass of the adaptor in addition to more slack in the hammering actuation due to the additional fitting. great video, thanks.
I'm a bricklayer and bought a bosch SDS hammer drill for drilling wall starter kits and cleaning any dried mortar from brick amd block recently, got charger and battery with the drill. Was well impressed woth it for the price so bought a circle saw as it was reduced to a great price and bought a 2more batteries. Now I've the bosch freak gen 3 now lol I really rate bosch tools for their quality build amd pricing
Great content. Your vid made me hesitate on buying the gen 2, but considering I was upgrading from porter cable for under $100 I’m glad I did. Hopefully Bosch sees your videos and corrects their next version and maybe issues a bit to correct previous versions
I love my Gen 2, gets off the lug nuts, but not the break bolts. Use it mostly as an impact driver. Very sturdy tool, have the larger Bosch impact wrench with the 'stacked' 8Ah cells for the heavy jobs.
I've got a gen1 freak that I got as part of a combo pack with a hammer drill, 2 batteries, charger, and carry bag for $99 over 6 years ago. I love it. It's a fantastic impact driver, but a lackluster impact wrench. Never had any issues with it driving screws, and it's adequate for light duty impact wrenching, just know it's limits, you're not going to be changing tires with this thing.
I have in fact changed tires with my gen 2. Swapped all 4 from a compact pickup truck. Only 1 or 2 lugnuts were stubborn enough to require breaker bar. I don't know how much torque did the tire shop set those to.
Do those sockets push up against that red collar? I was thinking maybe it could be creating some extra friction. That's one of the other major differences I see on the Bosch vs other impacts, that weird collar
No
I work in installing solar panels would this impact drill would be good enough for the type of work I do ?? Milwaukee and dewalt are kind of out of my budget right now
Yes, the 1800 and 1860 should do well for that.
Easily
Thank for all your good tests here in Australia we get a Bosch GDX 18V-200C were would this fit on your list and how do you find your list to look at
the GDX18V-200C is basically the same Gen 2 GDX18V-1800C we get in North America. 200Nm is roughly 1800 in-lbs.
The new Freak is known as GDX18V-210C in countries using metric system
Insane results! Thanks for the video! 😃
Have you ever experienced trying to loosen a Phillips or slotted screw with a regular length screwdriver and then tried a much longer screwdriver and the screw comes loose ?
If i had to guess id say the increased mass of the extension effecting momentum of the socket spinning.
"We could make a fortune off of it"
Bosch: "It's so simple.....too simple. Next!"
It needs more rotating mass. It's got more motor torque than it can use. The extra bit of weight is what it needs
Great review! Just one question. Can you do all 3 tests without the adapter as well? I know that is gives more with it, but the data without would be very usefull, it being 2 Inch shorter without. And for me as a professional home owner that two in one would be great if its strong enough.
See the 1st freak video. We tested without 1st
Minute 4:05...wait what!? 😆 Good review!
What do the mechanical engineers say when asked perplexing questions ?
Maybe using the adapter gives more power because the power is transferred from the outside in? Whereas using the anvil it’s transferring torque from the inside out? Maybe this makes a difference due to the angle of torque transfer?
Is it just mass? What if you went through the Totally Enjoyable work of milling a tungsten hex insert and test that?
Can you make your adapter much heavier? Can you make the socket much heavier?
For the big cash throw away, what if all parts are welded. Socket to bolt, socket to wrench. This would remove any tiny amounts of acceleration a heavier socket back hookup would give you with a little looseness at the nut. Accelerating more weight means hitting harder. Everything welded in place would test this.
I have the Ryobi 2,200 in. Lb impact driver P238VN… have y’all tested that? I’d love to see what it can do with the 9aH battery (unless all it does is snap the adapters)
If I mail it in, how long does it take to get it back? I kinda use it a LOT.
What’s the model number for it?
No ryobi drivers snap adapters
@@kevinragsdale6256 I mean, let’s be honest, maybeee some knockoff alibaba adapters. Lol
@@kevinragsdale6256 I’ve already broken 3 of the Ryobi 1/2” socket adapters, a Dewalt adapter, a Milwaukee adapter and a package of harbor freight adapters. 🤷♂️
Model P238VN
Fascinating results. Still glad we went for the Gen2 kit for father in law at 99. Neat to see a non-anti theft usage of Bluetooth on a tool, that does sound darn useful.
Ok and that was a chef kiss level 69 joke, without even saying "nice"
7:52 I think that 135 ft/lbs 10 sec reverse for gen 2.0 was without the 1/2 adaptor in the previous video. so it might not be fair.
Hey guys I have a question. Can I use the Bosch Freak in a regular drilling application, as in, Say i need to gently drill into a broken bolt with a left hand drill bit. Will this device be gentle enough to do that slowly? Or is it too hammery
Too hammery
Bosh tools don’t die we have dropped the 100ft off lifts ran them over with forklifts and still using them, they are lighter and smoother to use then most.
Dont have an impact, But I have a Bosch drill and batteries (I love it)
I am a home owner, and use these tools occasionally, and thought to get an impact for a wood yard build project (swing set for the kids)
I have a chance to buy the Gen1.5 for 1/3 the cost of a gen 2
Is it good enough for a casual user such as myself ? or is it way underpowered ?
or am I better off buying a GDR 18v-1600 for 2/3 the price of a GDX 18v-1600 ?
Please test the GDR18V-1860 hex collet variant (no 1/2” sq drive, 1/4” hex only)
The impact on those adapters might at a little spring torsion boosting the bit, through the impact action.
Is your set up testing turning torque or pressure that the plate is being exposed to?
What in the world... the insert worked! Crazy talk. I wonder if it would work even closer to the adapter if the insert was a high mass metal...tungsten maybe?
The difference in torque you observed during your tests is caused by mass. The built-in driver had the least amount of mass, the broken adapter had slightly more and the functioning adapter had the most. The functioning adapter with the socket weighed the most so suffered less deflection during the test resulting in a higher achieved torque
Are you doing the tests in the same order? If so, there could be some battery/motor heat effects.
You should redo the 3 tests (with adaptor, without adapter, with broken adapter) with 1 hour break between each test. Charge battery straight after each test and let it rest.
Not saying that you're wrong, just want to remove as many variables as possible.
Is the variance between adapter & no adapter something to do with the 'weight' of the socket/load? TRy finding a combination if lighter bit + extension, that equals in weight to a larger single socket. I'd guess it'd act the same.
Great video!!! I'm so glad I stuck with the Gen 2..... Saved a few bucks at least.....😃
Bosch does actually sell that exact same tool but with a solid half inch anvil, I wonder how it stacks up
From experience the socket adapters suck in the real world as they break after any real use like if you try and take off suspension parts they are toast. I gave up on them long ago and finally got an impact wrench.
There’s a new Bosch impact driver, the gdr 18v220c in Europe. Be cool to see you guys test their updated model to see if it’s any better. Some guys in the states have gotten it off of eBay
Hmmm... Wonder who's going to solve the mystery. You guys are putting out a lot of videos. Thanks
I’ve had a gen 2 1800 the plain version with out the gears it seems to have a little more push
Thank you so much for the video. I have model IDH182 and the original manual, but don't have a break-down for the Torque on each of the individual settings. However, I was reading a review from a blogger, on this particular tool, where one of the "Cons" is that the Torque is the same on all settings. Is this possible, even though the 3 settings are obviously different speeds? If not, why Bosch would not include the individual Torque on this model (unless the blogger is correct) and where can I find a source that can tell me the torque for each setting?
Could it have anything to do with the fact that the the adapter is "geared " lower with the smaller diameter shaft being directly driven from the center of the driver and not the larger diameter direct connector?
Great and very interesting review.
Ive got the original good looking gdx 😂. Had it from when it first came out. Cant believe it's still going to be honest. Fantastic tool.
Why can’t bosch make the freaks more competitive? 3rd gen needed at least 30% more power, not 3%. The design is genius and I would love a 3/8” compact freak with the bit driver but it would be great with double the power…and with the 2.0ah battery. Reliable smaller batteries with high discharge/charge rates for quick charging while under heavy sustained use should be offered by most of the major companies. When you have to use the tool overhead for hours at a time, but you need high output, a reliable powerful 1.5/2.0 battery should be the priority. Thanks for testing these and making the commentary entertaining.
I think it is worth mentioning that the 2nd and 3rd gen Freaks already have enough torque to snap hex adapters. TTC has several videos that show adapters being broken regularly. Take the Flex vs. Milwaukee impact driver showdown for example:
ua-cam.com/video/HTGrYkF3khw/v-deo.html
and
ua-cam.com/video/HTGrYkF3khw/v-deo.html
and
ua-cam.com/video/HTGrYkF3khw/v-deo.html
My guess is that manufacturers are trying to balance power with user experience/satisfaction, and don't want customers breaking a dozen impact adapters in a day's work. In reality, 150 ft-lb is plenty to drive all but the largest lag bolts, so packing more power into impact drivers is just asking to snap hex adapters (not to mention lower-quality screws).
In short, I don't think you actually want a Freak with 300 ft-lbs of torque. It would snap adapters (and smaller/cheaper screws) like crazy. What makes more sense to me is a moderately-powered impact driver (150 - 175 ft-lbs) and a separate impact wrench for use with sockets.
@@GAMP-b2s OMG thank you. So many people just want MOAR POWA in every tool. I use a oil impact for the lower noise and despite having 1/4 of the peak torque, it happily puts 14G tek screws in 3mm (1/8") steel.
Most impacts these days are absurdly overpowered when they spend 99% of their time putting in 10-14g screws, but people froth over their ability to undo lug nuts on trucks when almost no one uses them for that.
I'd much prefer they made impacts smaller and quieter rather than more powerful, but big numbers gets clicks on youtube and sales at the store.
Stop watching Dewalt commercials lol, stacked lithium is here in the power tool sector but let’s see if Dewalt or flex can make a five amp hour stack lithium before we ask Bosch to change, because right now they use 21700 cells and the 4ah batteries that come with the bare tools are pretty compact
@@6atlantis they have recently released exactly that: a 5 Ah Powerstack battery. They're insanely powerful, but pouch cells are notorious in the RC world for bulging and getting on fire. The same goes for laptops and phones, so I'd wait and see what the experiences will be before wanting other manufacturers to implement the same technology. So far, only Flex seems to follow them.
For me, a single row 21700 battery like the 4 Ah Core one is powerful and compact enough for compact tools and has far better runtime than a 1.7 Ah Powerstack one.
@@macvos I didn't like how the 5Ah stacked lithium battery is almost the same size as the 5Ah 2 row battery with 18650 cells.It almost defeats its purpose other than the extra oomph.
Same with Flex where a 6Ah stacked lithium battery is about the same as their regular 5Ah if not bigger
try a short 1/2" drive socket...like a 3". then use the adaptor on the dino?!?
Hello again Torque Test Channel
Thank you for another Great Video. I think, I 'll pass on this one. I need a tool to work every time. Again thank you
Maybe the fit tolerance of the adapter is better giving a better transfer of force than the 1/2in anvil?
Doesn't explain why fitting the broken bit and driving the socket from a 1/2 square also increased torque.
Bosch blue tools always looked cool to me for some reason
U should try PARKSIDE tools popular in eu
226Nm performance line cost like 65$ bare tool (battery is around 20$) that looks and works like dewalt dcf 850
If you have the ability to send one for testing… I’m sure they would test it out. Cheers
They are very good for the price, but seem to have high malfunction rates and QA/QC problems, with some machines seemingly going on forever and a lot of them dying after a relatively short time of serious use.
I would love to have an anvil like that on every tool I own. I love the option of drill bits and not having to hunt for the hex chuck to 3/8ths adapter
Is the square even half inch? Perhaps it's so loose on the socket it just looses all it's power.
Not a problem on normal wrenches but an impact could really get hurt by that.
The jokes in these videos 😂😂😂
could it just be down to the added mass? maybe the anvil is just too small in the tool.
Also, would love to see some petrol powered big boys that i have come across and see of they compare
I personally propose you test the corded Milwaukee impact wrench.
Fantastic idea. Thank you for sharing. Spread the word about the channel and hope to see you comment again. Cheers bud