121.
Making sense of elegant complexity in design
by Lewis, Kemper.
Edition: Vol.134(12), DecSource: Journal of mechanical designPublisher: New York ASME 2012Online access: Click here Availability: Items available for reference: School of Engineering & Technology (1).
122.
Two-step design of multicontact-aided cellular compliant mechanisms for stress relief
by Mehta, Vipul | Frecker, Mary.
Edition: Vol.134(12), DecSource: Journal of mechanical designPublisher: New York ASME 2012Online access: Click here Availability: Items available for reference: School of Engineering & Technology (1).
123.
Novel compact torsional spring for series elastic actuators for assistive wearable robots
by Carpino, Giorgio | Accoto, Dino.
Edition: Vol.134(12), DecSource: Journal of mechanical designPublisher: New York ASME 2012Online access: Click here Availability: Items available for reference: School of Engineering & Technology (1).
124.
Fluid and dynamics analyses of a gerotor pump using various span angle designs
by Hsieh, Chiu-Fan.
Edition: Vol.134(12), DecSource: Journal of mechanical designPublisher: New York ASME 2012Online access: Click here Availability: Items available for reference: School of Engineering & Technology (1).
125.
Analysis of lubricating performance for involute gear based on dynamic loading theory
by Yuan, Shi H | Dong, Hui L.
Edition: Vol.134(12), DecSource: Journal of mechanical designPublisher: New York ASME 2012Online access: Click here Availability: Items available for reference: School of Engineering & Technology (1).
126.
Family of butterfly flexural joints: Q-LITF pivots
by Pei, Xu | Jingjun, Yu.
Edition: Vol.134(12), DecSource: Journal of mechanical designPublisher: New York ASME 2012Online access: Click here Availability: Items available for reference: School of Engineering & Technology (1).
127.
Design for assembly guidelines for high-performance compliant mechanisms
by Gandhi, Prasanna | Sonawale, Kaustubh.
Edition: Vol.134(12), DecSource: Journal of mechanical designPublisher: New York ASME 2012Online access: Click here Availability: Items available for reference: School of Engineering & Technology (1).
128.
Nested extreme response surface approach for time-dependent reliability-based design optimization
by Wang, Zequn | Wang, Pingfeng.
Edition: Vol.134(12), DecSource: Journal of mechanical designPublisher: New York ASME 2012Online access: Click here Availability: Items available for reference: School of Engineering & Technology (1).
129.
Type synthesis of underactuated wrists generated from fully-parallel wrists
by Gregorio, Raffaele Di.
Edition: Vol.134(12), DecSource: Journal of mechanical designPublisher: New York ASME 2012Online access: Click here Availability: Items available for reference: School of Engineering & Technology (1).
130.
Multidisciplinary design optimization of modular industrial robots by utilizing high level CAD templates
by Tarkian, Mehdi | Persson, Johan.
Edition: Vol.134(12), DecSource: Journal of mechanical designPublisher: New York ASME 2012Online access: Click here Availability: Items available for reference: School of Engineering & Technology (1).
131.
Discrete topology optimization of structures using the improved hybrid discretization model
by Zhou, Hong | Patil, Rutesh B.
Edition: Vol.134(12), DecSource: Journal of mechanical designPublisher: New York ASME 2012Online access: Click here Availability: Items available for reference: School of Engineering & Technology (1).
132.
Study of student design team behaviors in complex system design
by Austin-Breneman, Jesse | Honda, Tomonori.
Edition: Vol.134(12), DecSource: Journal of mechanical designPublisher: New York ASME 2012Online access: Click here Availability: Items available for reference: School of Engineering & Technology (1).
133.
Comparison of polynomial cam profiles and input shaping for driving flexible systems
by Pridgen, Brice | Singhose, William.
Edition: Vol.134(12), DecSource: Journal of mechanical designPublisher: New York ASME 2012Online access: Click here Availability: Items available for reference: School of Engineering & Technology (1).