nice video, this took me back to structure classes. I had a Professor who was a Structural Engineer, who explained everything in an understandable and easy way just like yourself.
this is really convoluted because you're not analyzing structure here. there's no timeframe or evolution shown, and mostly you're just discussing forms. needs a thesis. needs to make a statement about the performance and function of structures at the material level, and over time and use.! Let's back up and do a structural hierarchy and timeline. At the top of our list/hierarchy is hot mixed mortars created by exploiting the quicklime reaction with water. This material is at the top of the list because of its ubiquitous use in time. Quicklime mortar is essential to building walls with brick or stone. These materials also create lime based plasters, stuccos and veneers to complete the whole building envelope. Brick/stone in hotmixed mortar is most of our structural methods timeline. We can confidently say it has been used successfully for 6000 years. in turkey, they laced timber into these structures... they survive earthquakes better than brand new portland cement slab buildings which killed their occupants. so that's our first class of structure type: masonry bonded in hot mixed mortars. as for forms you can build with masonry "walls" look no further than de'lorme and late medieval france to find the pinacle of what can be expressed with masonry in compression. an arch is a wall. a dome is an arch, etc. matters more the physics and performance of materials. our next class of structure is timber frame with joinery. great human precedent. works in seizmic zones historically where brick and stone cannot. Used in conjunction with mass walls, or on their own. -Tradbuilding.com
Amazing video thanks max!
nice video, this took me back to structure classes. I had a Professor who was a Structural Engineer, who explained everything in an understandable and easy way just like yourself.
Appreciated, thank you!
great knowledge.Thanx
Your audio is unfortunately not doing you any justice however you're equipping us with great knowledge.
WOO
As a suggest, you can improve a little more in the audio. However, good explanation and video! :)
Just bought a small microphone, will do!
great information but audio was really bad... 👍
Bought a mic, next video will be better audio! Thanks
Why do I see the Best Buy headquarters so often on random RUclips videos?
liked n subscibed...
terrible mic! but priceless information! i gave this video a thumbs up, learned many things, very informative - just upgrade the mic
Already bought a new one, next video will be better! Thanks!
It s windy
this is really convoluted because you're not analyzing structure here. there's no timeframe or evolution shown, and mostly you're just discussing forms. needs a thesis. needs to make a statement about the performance and function of structures at the material level, and over time and use.!
Let's back up and do a structural hierarchy and timeline. At the top of our list/hierarchy is hot mixed mortars created by exploiting the quicklime reaction with water. This material is at the top of the list because of its ubiquitous use in time. Quicklime mortar is essential to building walls with brick or stone. These materials also create lime based plasters, stuccos and veneers to complete the whole building envelope. Brick/stone in hotmixed mortar is most of our structural methods timeline. We can confidently say it has been used successfully for 6000 years.
in turkey, they laced timber into these structures... they survive earthquakes better than brand new portland cement slab buildings which killed their occupants.
so that's our first class of structure type: masonry bonded in hot mixed mortars. as for forms you can build with masonry "walls" look no further than de'lorme and late medieval france to find the pinacle of what can be expressed with masonry in compression. an arch is a wall. a dome is an arch, etc. matters more the physics and performance of materials.
our next class of structure is timber frame with joinery. great human precedent. works in seizmic zones historically where brick and stone cannot. Used in conjunction with mass walls, or on their own.
-Tradbuilding.com