Add to ORKGThis paper describes 3D-printed titanium compliant mechanisms for aerospace applications. It is meant as a primer to help engineers design compliant, multi-axis, printed parts that exhibit high performance. Topics covered include brief introductions to both compliant mechanism design and 3D printing in titanium, material and geometry considerations for 3D printing, modeling techniques, and case studies of both successful and unsuccessful part geometries. Key findings include recommended flexure geometries, minimum thicknesses, and general design guidelines for compliant printed parts that may not be obvious to the first time designer
Additive manufacturing (‘3D printing’) techniques provide engineers with unprecedented design freedo...
From Springer Nature via Jisc Publications RouterHistory: received 2019-10-30, accepted 2020-06-22, ...
In the past 10 years, complex deployable structures have become common on JPL CubeSats (e.g. RainCub...
Compliant mechanisms are able to transfer motion, force, and energy using a monolithic structure wi...
Compliant mechanisms with ultrahigh precision motion are being increasingly used for several applica...
Compliant mechanism has been a popular solution for developing precision motion systems. The working...
The compliant parallel mechanisms (CPM) used in precision positioners are commonly fabricated in par...
There are strict tolerances on the placement of optical components in high performance optical syste...
Compliant mechanisms (CM) are defined as monolithic, flexible structures that use elastic deformatio...
With the existing extensive research conducted on compliant mechanism, it can now render new and adv...
Compliant mechanisms gain motion through the elastic deformation of the monolithic flexible elements...
Construction applications sometimes require use of a material other than construction steel or concr...
Compliant elements overcome many of the shortfalls of using 3D printing to create mechanisms, as pri...
Mechanisms are used widely in engineering applications due to their ability to translate force and m...
The advancement of titanium alloys in recent years in complex manufacturing has led to countless pos...
Additive manufacturing (‘3D printing’) techniques provide engineers with unprecedented design freedo...
From Springer Nature via Jisc Publications RouterHistory: received 2019-10-30, accepted 2020-06-22, ...
In the past 10 years, complex deployable structures have become common on JPL CubeSats (e.g. RainCub...
Compliant mechanisms are able to transfer motion, force, and energy using a monolithic structure wi...
Compliant mechanisms with ultrahigh precision motion are being increasingly used for several applica...
Compliant mechanism has been a popular solution for developing precision motion systems. The working...
The compliant parallel mechanisms (CPM) used in precision positioners are commonly fabricated in par...
There are strict tolerances on the placement of optical components in high performance optical syste...
Compliant mechanisms (CM) are defined as monolithic, flexible structures that use elastic deformatio...
With the existing extensive research conducted on compliant mechanism, it can now render new and adv...
Compliant mechanisms gain motion through the elastic deformation of the monolithic flexible elements...
Construction applications sometimes require use of a material other than construction steel or concr...
Compliant elements overcome many of the shortfalls of using 3D printing to create mechanisms, as pri...
Mechanisms are used widely in engineering applications due to their ability to translate force and m...
The advancement of titanium alloys in recent years in complex manufacturing has led to countless pos...
Additive manufacturing (‘3D printing’) techniques provide engineers with unprecedented design freedo...
From Springer Nature via Jisc Publications RouterHistory: received 2019-10-30, accepted 2020-06-22, ...
In the past 10 years, complex deployable structures have become common on JPL CubeSats (e.g. RainCub...