I dont know how I came across this tutorial but its convinced me to learn blender. I dont know why but its fun to see how everything pieces together and the process of modelling seems relaxing
Thank you max hay, I am giving my best on 3d especially in blender and your videos helps a lot. I created so many projects lighting was good the modelling was also decent but the only problem I faced was texturing and I endup deleting the project. If your reading this comment it's my request to please create a video on Textures. Thank you once again❤🤝
Hey, use pbr textures. Four 2d texture maps and the principled bsdf. Use really good pbr textures in 4k, and make sure you've scaled them properly in the UV editor or shader editor, so you're getting your full resolution (or as much as possible). I started by downloading free pbr textures from poliigon, ambient cg and texture haven. For blender, always choose OpenGL normals (not DX), and, if offered, always choose the 'metallic' workflow, not 'specular'. There's a few really good tutorials on UA-cam for 'setting up' a pbr material. One that's *very* good is CG Masters tutorial on 'pbr materials and shading' (about 28 minutes long) he did, about a year ago or so. It's essential viewing. Daniel Grove Photo also did a really good tutorial on the same thing, and 'The CG Essentials' (Justin Geis) has done several on this. Once you get the hang of it, it's the same procedure every time. Remember to enable Node Wrangler in edit>preferences>addons, because every blender instructor will assume you have this enabled. Also, whilst you're doing that, make sure you enable 'Bool Tool' and 'Loop Tools'. The essential four 2d maps that make a pbr material are: diffuse (colour), metalness (or specular), roughness, normal. Additionally, you can add an AO (ambient occlusion) map, and a bump map (also called a height map). The bump map is converted to normals by the 'bump node' and plugged into the normal socket of the normal map node (i think, from memory). As a beginner, I would probably stay away from displacement maps/displacement node because they are a bit of pain to set up, and sometimes look a bit weird. You can investigate them later. But the 'basic' pbr system works ever so well, and when combined with good, carefully considered lighting, can produce fantastic results when rendered with cycles. I hope this helps you.
Hey, use pbr textures. Four 2d texture maps and the principled bsdf. Use really good pbr textures in 4k, and make sure you've scaled them properly in the UV editor or shader editor, so you're getting your full resolution (or as much as possible). I started by downloading free pbr textures from poliigon, ambient cg and texture haven. For blender, always choose OpenGL normals (not DX), and, if offered, always choose the 'metallic' workflow, not 'specular'. There's a few really good tutorials on UA-cam for 'setting up' a pbr material. One that's *very* good is CG Masters tutorial on 'physically based rendering and the principled node' (about 28 minutes long) he did, about a year ago or so. It's essential viewing. Daniel Grove Photo also did a really good tutorial on the same thing, and 'The CG Essentials' (Justin Geis) has done several on this. Once you get the hang of it, it's the same procedure every time. Remember to enable Node Wrangler in edit>preferences>addons, because every blender instructor will assume you have this enabled. Also, whilst you're doing that, make sure you enable 'Bool Tool' and 'Loop Tools'. The essential four 2d maps that make a pbr material are: diffuse (colour), metalness (or specular), roughness, normal. Additionally, you can add an AO (ambient occlusion) map, and a bump map (also called a height map). The bump map is converted to normals by the 'bump node' and plugged into the normal socket of the normal map node (i think, from memory). As a beginner, I would probably stay away from displacement maps/displacement node because they are a bit of pain to set up, and sometimes look a bit weird. You can investigate them later. But the 'basic' pbr system works ever so well, and when combined with good, carefully considered lighting, can produce fantastic results when rendered with cycles. I hope this helps you.
love your tutorials dude, really helping me out. I have a request for another archway tutorial if you're looking for ideas? gothic archways specifically, so they have the pointed arch and more intricate flow-y patterns (check out the cologne cathedral windows for an example on what I mean!) i've been attempting to construct them myself but can't quite get the hang of it!
hey Flamers, I don't know if this will help, but .... Artisans of Vaul did a couple of videos about 6 months ago entitled "what's the best way to make a gothic arch in blender".
Great Videos - easy to follow and thorough. I also watched your video on Edge Wear, and saw how you created the edge wear on the pillars from scratch. But, on this video you simply imported some sort of combined node from your assets. Do you have a video somewhere that shows how you created that combined node? or is it in your course somewhere? Cheers.
It's pretty predictable by now: 8 core/16 thread cpu or higher; 32 GB RAM or 64GB if you need it; very good gpu, typically rtx 3090 or 4090. Fast SSD boot drive and loads of storage, or NAS. Some people even have two top end gpus, so they can continue to work whilst rendering. A good psu is essential. Buy 1st tier, Seasonic or BeQuiet, and minimum 750 watts for one GPU, but depends on what you have. Components are getting very power hungry these days, especially cpus and gpus. You can tweak gpu power consumption down a bit, which is recommended. Good cooling is essential. Cpu cooling by Noctua, D-15 is superb, and good case ventilation.
@@lavatr8322 that's perfectly fine, you'll be able to do a lot of blendering with that. Looks like a good balance of components. Blender is actually very efficient, I think, and so that choice of components will make for a fast, responsive machine. Good to see 32 GB RAM. You may want to consider, at some stage, some cheap big storage, in the form of a 2 TB mechanical hard drive (3.5 inch SATA ), because once you get going, you'll find that lots of blender related things take up a fair bit of space, like hi res texture maps for pbr materials (4k/8k). Does depend to a certain extent on what you're doing, but if you're doing 4k res animations, then you'll use loads. You'll find out. Try not to fill your boot SSD to 100% full. Always leave, ideally, 15 - 20% free, for a long and happy life. Use Windows 10 Professional, and lock down obnoxious windows behaviour with the excellent Group Policy Editor (GPedit). This is essential for taking control of windows update, and disabling things like the Microsoft consumer experience, which is responsible for a whole load of totally cr*p things, like reinstalling candy crush saga with every update. You can buy an oem key for win 10 pro very cheaply online. If you're not sure where, see 'Moore's Law is dead' youtube channel. If you're mostly using your pc for blender, then you can use nvidia's studio drivers, which are supposed to be better and more stable for 3d content creation software. But if you game, I guess you'll probably be best with nvidia's game drivers. All in all, I think your set up will do really well. The only limitation I would say is the amount of vram (frame buffer) on your gpu. This won't be a problem for you for a while, but if you start getting more ambitious with your scenes and textures, then you might find yourself running close to your memory limit. There are quite a few workarounds to this, like rendering in layers, optimising your geometry and textures etc, so don't worry. But I just thought I'd mention that, in case you were wondering why people spend so much money on high end gpus, because in the case of the rtx cards, they have 24 GB of vram, which gives loads of headroom for big scenes and hi res textures. Everything I have just said assumes you are doing your rendering on your gpu in cycles, which I would recommend. Your gpu will render scenes in cycles many times faster than your cpu. Try it both ways, and see the difference. If this issue of gpu resources ever becomes a problem, you could consider cloud rendering, via Barista, but that's another story. I do my rendering at home on my rtx gpus. Any queries, let me know.
@@lavatr8322 that's perfectly fine, you'll be able to do a lot of blendering with that. Looks like a good balance of components. Blender is actually very efficient, I think, and so that choice of components will make for a fast, responsive machine. Good to see 32 GB RAM. You may want to consider, at some stage, some cheap big storage, in the form of a 2 TB mechanical hard drive (3.5 inch SATA ), because once you get going, you'll find that lots of blender related things take up a fair bit of space, like hi res texture maps for pbr materials (4k/8k). Does depend to a certain extent on what you're doing, but if you're doing 4k res animations, then you'll use loads. You'll find out. Try not to fill your boot SSD to 100% full. Always leave, ideally, 15 - 20% free, for a long and happy life. Use Windows 10 Professional, and lock down obnoxious windows behaviour with the excellent Group Policy Editor (GPedit). This is essential for taking control of windows update, and disabling things like the Microsoft consumer experience, which is responsible for a whole load of totally cr*p things, like reinstalling candy crush saga with every update. You can buy an oem key for win 10 pro very cheaply online. If you're not sure where, see 'Moore's Law is dead' youtube channel. If you're mostly using your pc for blender, then you can use nvidia's studio drivers, which are supposed to be better and more stable for 3d content creation software. But if you game, I guess you'll probably be best with nvidia's game drivers. All in all, I think your set up will do really well. The only limitation I would say is the amount of vram (frame buffer) on your gpu. This won't be a problem for you for a while, but if you start getting more ambitious with your scenes and textures, then you might find yourself running close to your memory limit. There are quite a few workarounds to this, like rendering in layers, optimising your geometry and textures etc, so don't worry. But I just thought I'd mention that, in case you were wondering why people spend so much money on high end gpus, because in the case of the rtx cards, they have 24 GB of vram, which gives loads of headroom for big scenes and hi res textures. Everything I have just said assumes you are doing your rendering on your gpu in cycles, which I would recommend. Your gpu will render scenes in cycles many times faster than your cpu. Try it both ways, and see the difference. If this issue of gpu resources ever becomes a problem, you could consider cloud rendering, via Barista, but that's another story. I do my rendering at home on my rtx gpus. Any queries, let me know.
I dont know how I came across this tutorial but its convinced me to learn blender. I dont know why but its fun to see how everything pieces together and the process of modelling seems relaxing
this is an amazing tutorial, i just started learning Blender and this helps a lot thank you
Max, that's great !!
So efficient, fast, and simple, but the end result is really good.
Thanks! 🚀
Thanks for breaking down the secret of arch I'm been searching for this tutorial for so long
Thank you always max 👍👍👍👍
Hell yeah dude! Great approachable tut man!!
Thank you max hay, I am giving my best on 3d especially in blender and your videos helps a lot. I created so many projects lighting was good the modelling was also decent but the only problem I faced was texturing and I endup deleting the project. If your reading this comment it's my request to please create a video on Textures. Thank you once again❤🤝
Hey, use pbr textures. Four 2d texture maps and the principled bsdf. Use really good pbr textures in 4k, and make sure you've scaled them properly in the UV editor or shader editor, so you're getting your full resolution (or as much as possible). I started by downloading free pbr textures from poliigon, ambient cg and texture haven. For blender, always choose OpenGL normals (not DX), and, if offered, always choose the 'metallic' workflow, not 'specular'.
There's a few really good tutorials on UA-cam for 'setting up' a pbr material.
One that's *very* good is CG Masters tutorial on 'pbr materials and shading' (about 28 minutes long) he did, about a year ago or so. It's essential viewing.
Daniel Grove Photo also did a really good tutorial on the same thing, and 'The CG Essentials' (Justin Geis) has done several on this. Once you get the hang of it, it's the same procedure every time. Remember to enable Node Wrangler in edit>preferences>addons, because every blender instructor will assume you have this enabled. Also, whilst you're doing that, make sure you enable 'Bool Tool' and 'Loop Tools'.
The essential four 2d maps that make a pbr material are: diffuse (colour), metalness (or specular), roughness, normal.
Additionally, you can add an AO (ambient occlusion) map, and a bump map (also called a height map). The bump map is converted to normals by the 'bump node' and plugged into the normal socket of the normal map node (i think, from memory).
As a beginner, I would probably stay away from displacement maps/displacement node because they are a bit of pain to set up, and sometimes look a bit weird. You can investigate them later. But the 'basic' pbr system works ever so well, and when combined with good, carefully considered lighting, can produce fantastic results when rendered with cycles.
I hope this helps you.
Hey, use pbr textures. Four 2d texture maps and the principled bsdf. Use really good pbr textures in 4k, and make sure you've scaled them properly in the UV editor or shader editor, so you're getting your full resolution (or as much as possible). I started by downloading free pbr textures from poliigon, ambient cg and texture haven. For blender, always choose OpenGL normals (not DX), and, if offered, always choose the 'metallic' workflow, not 'specular'.
There's a few really good tutorials on UA-cam for 'setting up' a pbr material.
One that's *very* good is CG Masters tutorial on 'physically based rendering and the principled node' (about 28 minutes long) he did, about a year ago or so. It's essential viewing.
Daniel Grove Photo also did a really good tutorial on the same thing, and 'The CG Essentials' (Justin Geis) has done several on this. Once you get the hang of it, it's the same procedure every time. Remember to enable Node Wrangler in edit>preferences>addons, because every blender instructor will assume you have this enabled. Also, whilst you're doing that, make sure you enable 'Bool Tool' and 'Loop Tools'.
The essential four 2d maps that make a pbr material are: diffuse (colour), metalness (or specular), roughness, normal.
Additionally, you can add an AO (ambient occlusion) map, and a bump map (also called a height map). The bump map is converted to normals by the 'bump node' and plugged into the normal socket of the normal map node (i think, from memory).
As a beginner, I would probably stay away from displacement maps/displacement node because they are a bit of pain to set up, and sometimes look a bit weird. You can investigate them later. But the 'basic' pbr system works ever so well, and when combined with good, carefully considered lighting, can produce fantastic results when rendered with cycles.
I hope this helps you.
love your tutorials dude, really helping me out. I have a request for another archway tutorial if you're looking for ideas? gothic archways specifically, so they have the pointed arch and more intricate flow-y patterns (check out the cologne cathedral windows for an example on what I mean!) i've been attempting to construct them myself but can't quite get the hang of it!
Model half the archway and mirror modifier the other half?
hey Flamers, I don't know if this will help, but .... Artisans of Vaul did a couple of videos about 6 months ago entitled "what's the best way to make a gothic arch in blender".
You're the G.O.A.T!!❤❤❤
This is 🔥.
Great Videos - easy to follow and thorough. I also watched your video on Edge Wear, and saw how you created the edge wear on the pillars from scratch. But, on this video you simply imported some sort of combined node from your assets. Do you have a video somewhere that shows how you created that combined node? or is it in your course somewhere? Cheers.
Thank you very much bro❤❤
can u pls share textures and how can we organize in blender
Thnak you 🙏
Love your videos! I have a quick question for you, in your scene properties, what do you set your unit system and unit scale to?
What are your PC specs?
It's pretty predictable by now:
8 core/16 thread cpu or higher; 32 GB RAM or 64GB if you need it; very good gpu, typically rtx 3090 or 4090.
Fast SSD boot drive and loads of storage, or NAS.
Some people even have two top end gpus, so they can continue to work whilst rendering.
A good psu is essential. Buy 1st tier, Seasonic or BeQuiet, and minimum 750 watts for one GPU, but depends on what you have. Components are getting very power hungry these days, especially cpus and gpus. You can tweak gpu power consumption down a bit, which is recommended.
Good cooling is essential. Cpu cooling by Noctua, D-15 is superb, and good case ventilation.
@@richardconway6425 I'm looking to build my first PC. (My budget is very tight) this is how it looks 👇
i5 14500
RTX 3060 12gb
32gb ram
1tb SSD
@@lavatr8322 that's perfectly fine, you'll be able to do a lot of blendering with that. Looks like a good balance of components. Blender is actually very efficient, I think, and so that choice of components will make for a fast, responsive machine. Good to see 32 GB RAM.
You may want to consider, at some stage, some cheap big storage, in the form of a 2 TB mechanical hard drive (3.5 inch SATA ), because once you get going, you'll find that lots of blender related things take up a fair bit of space, like hi res texture maps for pbr materials (4k/8k). Does depend to a certain extent on what you're doing, but if you're doing 4k res animations, then you'll use loads. You'll find out.
Try not to fill your boot SSD to 100% full. Always leave, ideally, 15 - 20% free, for a long and happy life.
Use Windows 10 Professional, and lock down obnoxious windows behaviour with the excellent Group Policy Editor (GPedit). This is essential for taking control of windows update, and disabling things like the Microsoft consumer experience, which is responsible for a whole load of totally cr*p things, like reinstalling candy crush saga with every update.
You can buy an oem key for win 10 pro very cheaply online. If you're not sure where, see 'Moore's Law is dead' youtube channel.
If you're mostly using your pc for blender, then you can use nvidia's studio drivers, which are supposed to be better and more stable for 3d content creation software. But if you game, I guess you'll probably be best with nvidia's game drivers.
All in all, I think your set up will do really well. The only limitation I would say is the amount of vram (frame buffer) on your gpu. This won't be a problem for you for a while, but if you start getting more ambitious with your scenes and textures, then you might find yourself running close to your memory limit. There are quite a few workarounds to this, like rendering in layers, optimising your geometry and textures etc, so don't worry. But I just thought I'd mention that, in case you were wondering why people spend so much money on high end gpus, because in the case of the rtx cards, they have 24 GB of vram, which gives loads of headroom for big scenes and hi res textures. Everything I have just said assumes you are doing your rendering on your gpu in cycles, which I would recommend. Your gpu will render scenes in cycles many times faster than your cpu. Try it both ways, and see the difference.
If this issue of gpu resources ever becomes a problem, you could consider cloud rendering, via Barista, but that's another story. I do my rendering at home on my rtx gpus.
Any queries, let me know.
@@lavatr8322 I've responded to this fully, but I'm having problems with youtube accepting my comments atm, so I'll try reposting again later.
@@lavatr8322 that's perfectly fine, you'll be able to do a lot of blendering with that. Looks like a good balance of components. Blender is actually very efficient, I think, and so that choice of components will make for a fast, responsive machine. Good to see 32 GB RAM.
You may want to consider, at some stage, some cheap big storage, in the form of a 2 TB mechanical hard drive (3.5 inch SATA ), because once you get going, you'll find that lots of blender related things take up a fair bit of space, like hi res texture maps for pbr materials (4k/8k). Does depend to a certain extent on what you're doing, but if you're doing 4k res animations, then you'll use loads. You'll find out.
Try not to fill your boot SSD to 100% full. Always leave, ideally, 15 - 20% free, for a long and happy life.
Use Windows 10 Professional, and lock down obnoxious windows behaviour with the excellent Group Policy Editor (GPedit). This is essential for taking control of windows update, and disabling things like the Microsoft consumer experience, which is responsible for a whole load of totally cr*p things, like reinstalling candy crush saga with every update.
You can buy an oem key for win 10 pro very cheaply online. If you're not sure where, see 'Moore's Law is dead' youtube channel.
If you're mostly using your pc for blender, then you can use nvidia's studio drivers, which are supposed to be better and more stable for 3d content creation software. But if you game, I guess you'll probably be best with nvidia's game drivers.
All in all, I think your set up will do really well. The only limitation I would say is the amount of vram (frame buffer) on your gpu. This won't be a problem for you for a while, but if you start getting more ambitious with your scenes and textures, then you might find yourself running close to your memory limit. There are quite a few workarounds to this, like rendering in layers, optimising your geometry and textures etc, so don't worry. But I just thought I'd mention that, in case you were wondering why people spend so much money on high end gpus, because in the case of the rtx cards, they have 24 GB of vram, which gives loads of headroom for big scenes and hi res textures. Everything I have just said assumes you are doing your rendering on your gpu in cycles, which I would recommend. Your gpu will render scenes in cycles many times faster than your cpu. Try it both ways, and see the difference.
If this issue of gpu resources ever becomes a problem, you could consider cloud rendering, via Barista, but that's another story. I do my rendering at home on my rtx gpus.
Any queries, let me know.
what do you think about sora open ai? i am really scared of that. like no excuses i still am working on blender but still its scary
How did you learn to do this like what school or course did you take to learn this
He's a professional 3d content creator, so it's a long story. He's also produced music professionally as well, so he has a synergy of skills.
so what do i have to do to get as good as he is@@richardconway6425
can he make a video on it? @@richardconway6425
How much is your course please, I must be silly as I can't find the price on your site ?