12 Printer Production Engineering: Difference between revisions
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<html><iframe src="https://docs.google.com/presentation/d/e/2PACX-1vSCzJ0GC4hrVq9F5uInvVUCyv63gkSkctSH4g3xRUaMqveI6jHap9ik92rr4SoSDKHoaVZMdjmwtJrD/embed?start=false&loop=false&delayms=3000" frameborder="0" width=" | =Abstract= | ||
Extreme Production Engineering is production engineering for distributed, small scale manufacturing in the form of family-run businesses. The value proposition is [[Distributed Market Substition]], [[Lifetime Design]], and [[Systems Design]]. When industrial productivity is achieved on a small scale, the goal is to fund people doing transformative work. The revenue goal for a business model based on Extreme Production Engineering is $1000 per person per day, which is competitive with Amazon and other top-performing corporations when gross profit margins are considered [https://ycharts.com/companies/AMZN/gross_profit_margin]. See [[Revenue Per Employee]] industry standards. Here we develop the case for a 3D printer-based enterprise. | |||
=Strategy= | |||
==General== | |||
*Build up elements that are to be used throughout the ecosystem, with high adherence to [[OSE Spec]] - specifically industrial productivity, and never education only | |||
*High performance for industrial productivity on a small scale: 5-20 lb print rate, filament making, etc. | |||
==Heatbed== | |||
*DIY heatbeds? Don't know distance of heater wire - need to test in practice. If heatbed is insulated, it will be easier to keep at even temperature. | |||
*Use both types for now: 8" standard and 8" nichrome, but do 129V for speed. | |||
*Get a 120V now, make 120V now. This could be a great saver. | |||
*Cost comparison: $13 for heat bed vs $2.50 for nichrome wire with sleeve. Need high temp wire to go with it + butt connectors for wire. Small ferrules will do. Check out both options. Have 30 and 31 ga nichrome on hand. 6.7 ohm/ft for 30 ga. Need only 4 feet. If we double the wire length - get about 270W which is not too hot. Sh | |||
=Working Doc= | |||
<html><iframe src="https://docs.google.com/presentation/d/e/2PACX-1vSCzJ0GC4hrVq9F5uInvVUCyv63gkSkctSH4g3xRUaMqveI6jHap9ik92rr4SoSDKHoaVZMdjmwtJrD/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="389" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html> | |||
[https://docs.google.com/presentation/d/1GcDL2r3IkoKEI0BQVDnufeXuvQLlDlgJ4DAiYZ6NIY4/edit#slide=id.g45ed589c64_0_0 edit] | [https://docs.google.com/presentation/d/1GcDL2r3IkoKEI0BQVDnufeXuvQLlDlgJ4DAiYZ6NIY4/edit#slide=id.g45ed589c64_0_0 edit] | ||
=Links= | =Links= | ||
*'''[[3D Printer Critical Path]]''' | |||
*'''[[3D Printer Production Engineering]]''' | |||
*[[TMC 2130 Stepper Drivers]] | |||
*[[Kit Production Ergonomics]] | |||
*[[3D Printer Product Strategy]] | *[[3D Printer Product Strategy]] | ||
*[[3D Printer Marketing Strategy]] | *[[3D Printer Marketing Strategy]] | ||
*[[3D Printer Business Development]] | *[[3D Printer Business Development]] | ||
*[[OSE Growth Strategy]] | *[[OSE Growth Strategy]] | ||
*[[OSE Development Priorities]] | |||
*[[OSE Incentive Challenge]] | *[[OSE Incentive Challenge]] | ||
*[[OSE Clubs Strategy]] | *[[OSE Clubs Strategy]] | ||
*[[$100k Microfactory]] | |||
*[[$500 Tractor]] | |||
*[[Open Source Product Development]] | |||
*[[OSE Target Market]] | |||
*[[Kits]] | |||
*[[3D Printer Kits]] | |||
*[[3D Printer Kit Preparation Manual]], [[Kit Build Manual]] | |||
*[[Kit Shipping]] | |||
*'''[[Kit Certification]]''' | |||
*[[OSE Tool Kit]] | |||
*[[How to Build a Kit]] | |||
*[[OSEDev Kit]] - decent work by Lex | |||
*[[Product Kits] | |||
Latest revision as of 19:07, 20 April 2019
Abstract
Extreme Production Engineering is production engineering for distributed, small scale manufacturing in the form of family-run businesses. The value proposition is Distributed Market Substition, Lifetime Design, and Systems Design. When industrial productivity is achieved on a small scale, the goal is to fund people doing transformative work. The revenue goal for a business model based on Extreme Production Engineering is $1000 per person per day, which is competitive with Amazon and other top-performing corporations when gross profit margins are considered [1]. See Revenue Per Employee industry standards. Here we develop the case for a 3D printer-based enterprise.
Strategy
General
- Build up elements that are to be used throughout the ecosystem, with high adherence to OSE Spec - specifically industrial productivity, and never education only
- High performance for industrial productivity on a small scale: 5-20 lb print rate, filament making, etc.
Heatbed
- DIY heatbeds? Don't know distance of heater wire - need to test in practice. If heatbed is insulated, it will be easier to keep at even temperature.
- Use both types for now: 8" standard and 8" nichrome, but do 129V for speed.
- Get a 120V now, make 120V now. This could be a great saver.
- Cost comparison: $13 for heat bed vs $2.50 for nichrome wire with sleeve. Need high temp wire to go with it + butt connectors for wire. Small ferrules will do. Check out both options. Have 30 and 31 ga nichrome on hand. 6.7 ohm/ft for 30 ga. Need only 4 feet. If we double the wire length - get about 270W which is not too hot. Sh
Working Doc
Links
- 3D Printer Critical Path
- 3D Printer Production Engineering
- TMC 2130 Stepper Drivers
- Kit Production Ergonomics
- 3D Printer Product Strategy
- 3D Printer Marketing Strategy
- 3D Printer Business Development
- OSE Growth Strategy
- OSE Development Priorities
- OSE Incentive Challenge
- OSE Clubs Strategy
- $100k Microfactory
- $500 Tractor
- Open Source Product Development
- OSE Target Market
- Kits
- 3D Printer Kits
- 3D Printer Kit Preparation Manual, Kit Build Manual
- Kit Shipping
- Kit Certification
- OSE Tool Kit
- How to Build a Kit
- OSEDev Kit - decent work by Lex
- [[Product Kits]