Robust Modular Degeneracy: Difference between revisions
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=About= | =About= | ||
A design approach for [[Zero Marginal Cost Economic Development]] focusing on | A design approach for [[Zero Marginal Cost Economic Development]] focusing on robust, [[Degenerate]] modules in the context of [[Module-Based Design]] - enabling lego-like industrial productivity on a small scale - focusing on degeneracy via [[Multipurpose Design]]. The critical aspect is the access, low cost, and efficiency of systems designed with degenerate robust modularity. | ||
The OSE approach involves a nominal 100kW (village scale) solar power system, feeding industrial processes such as [[Solar Steel]], [[Solar Concrete]], a quarry, 3D printing of thermoplastic construction materials, forestry, agriculture, industrial hot metal processing (induction furnace) and precision machining as some of the core technosphere required for human prosperity. | |||
The focus of Degenerate Modular Scalability is [[Extensive Scalability]] - zero marginal cost development of industrial, power, precision, material production, and other aspects of the technosphere. | |||
=Examples= | |||
*'''Machining and Digital Fabrication''' - [[Universal Axis]], [[XY Table]], 3" shaft and chuck with feed-though, [[Granite Blocks]]. Capable of 3D printers, | |||
**Example - [[15 mm GT2 Belt]] scaled dual drive dual axis on each side = 4 axes with 8 x 15mm GT2 power transfer. Piggybacked - up to 16x the power transfer of 15 mm GT2 belt. | |||
*'''Industrial Power''' - scalable power cubes at 15 hp motor level, then open sourced with EFI for lifetime design. Practical route to 60 and 120 hp machines if optimized | |||
*[[5 Minute Design]] | |||
*[[Integrated Design]] | |||
*[[Universal Axis]] and [[Universal Frame]] - applied successfully to 3D printers, 5x10 foot bed 3D Printer, and in modified form to a 20 | |||
=Microexamples= | |||
*15 mm GT2 belt - max force trasnfer is 20 lb with 1G acceleration? Source [https://www.aliexpress.us/item/3256806031321728.html?spm=a2g0o.productlist.main.14.20d815c1PYqzQx&aem_p4p_detail=202512251414023758024972717100000351763&algo_pvid=9b87295f-dadb-4753-8cae-25b871f8ae1f&algo_exp_id=9b87295f-dadb-4753-8cae-25b871f8ae1f-13&pdp_ext_f=%7B%22order%22%3A%22237%22%2C%22eval%22%3A%221%22%2C%22fromPage%22%3A%22search%22%7D&pdp_npi=6%40dis%21USD%213.37%210.99%21%21%2123.51%216.93%21%402103128817667008422067578e2034%2112000036325545526%21sea%21US%210%21ABX%211%210%21n_tag%3A-29910%3Bd%3A832918d7%3Bm03_new_user%3A-29895%3BpisId%3A5000000187461913&curPageLogUid=RTdZPlfKqggT&utparam-url=scene%3Asearch%7Cquery_from%3A%7Cx_object_id%3A1005006217636480%7C_p_origin_prod%3A&search_p4p_id=202512251414023758024972717100000351763_4] | |||
Latest revision as of 00:37, 26 December 2025
About
A design approach for Zero Marginal Cost Economic Development focusing on robust, Degenerate modules in the context of Module-Based Design - enabling lego-like industrial productivity on a small scale - focusing on degeneracy via Multipurpose Design. The critical aspect is the access, low cost, and efficiency of systems designed with degenerate robust modularity.
The OSE approach involves a nominal 100kW (village scale) solar power system, feeding industrial processes such as Solar Steel, Solar Concrete, a quarry, 3D printing of thermoplastic construction materials, forestry, agriculture, industrial hot metal processing (induction furnace) and precision machining as some of the core technosphere required for human prosperity.
The focus of Degenerate Modular Scalability is Extensive Scalability - zero marginal cost development of industrial, power, precision, material production, and other aspects of the technosphere.
Examples
- Machining and Digital Fabrication - Universal Axis, XY Table, 3" shaft and chuck with feed-though, Granite Blocks. Capable of 3D printers,
- Example - 15 mm GT2 Belt scaled dual drive dual axis on each side = 4 axes with 8 x 15mm GT2 power transfer. Piggybacked - up to 16x the power transfer of 15 mm GT2 belt.
- Industrial Power - scalable power cubes at 15 hp motor level, then open sourced with EFI for lifetime design. Practical route to 60 and 120 hp machines if optimized
- 5 Minute Design
- Integrated Design
- Universal Axis and Universal Frame - applied successfully to 3D printers, 5x10 foot bed 3D Printer, and in modified form to a 20
Microexamples
- 15 mm GT2 belt - max force trasnfer is 20 lb with 1G acceleration? Source [1]