Publications

Robbins, Joshua R.; Aguilo Valentin, Miguel A.; Alberdi, Ryan A.; Clark, Brett W.; Jared, Bradley H.; Jensen, Scott C.; Johnson, Kyle J.; Viertel, Ryan V.

This report provides detailed documentation of the algorithms that where developed and implemented in the Plato software over the course of the Optimization-based Design for Manufacturing LDRD project.

Robbins, Joshua R.; Alberdi, Ryan A.; Clark, Brett W.

The typical topology optimization workflow uses a design domain that does not change during the optimization process. Consequently, features of the design domain, such as the location of loads and constraints, must be determined in advance and are not optimizable. A method is proposed herein that allows the design domain to be optimized along with the topology. This approach uses topology and shape derivatives to guide nested optimizers to the optimal topology and design domain. The details of the method are discussed, and examples are provided that demonstrate the utility of this approach.

Aguilo Valentin, Miguel A.; Clark, Brett W.; Johnson, Kyle J.; Robbins, Joshua R.; Viertel, Ryan V.

Abstract not provided.

Aguilo Valentin, Miguel A.; Clark, Brett W.; Robbins, Joshua R.; Viertel, Ryan V.

Abstract not provided.

Aguilo Valentin, Miguel A.; Clark, Brett W.; Jared, Bradley H.; Johnson, Kyle J.; Robbins, Joshua R.; Russ, Jonathan B.

Abstract not provided.

Aguilo Valentin, Miguel A.; Clark, Brett W.; Viertel, Ryan V.; Robbins, Joshua R.

Abstract not provided.

Roach, R.A.; Jared, Bradley H.; Boyce, Brad B.; Lechman, Jeremy B.; Martinez, Mario A.; Forrest, Eric C.; Taylor, Samantha T.; Dagel, Amber L.; Madison, Jonathan D.; Ivanoff, Thomas I.; Koepke, Joshua R.; Swiler, Laura P.; van Bloemen Waanders, Bart G.; Clark, Brett W.; Rodgers, Theron R.; Johnson, Kyle J.

Abstract not provided.

Aguilo Valentin, Miguel A.; Robbins, Joshua R.; Viertel, Ryan V.; Clark, Brett W.

Abstract not provided.

Aguilo Valentin, Miguel A.; Voth, Thomas E.; Clark, Brett W.; Robbins, Joshua R.

Abstract not provided.

Scripta Materialia

Jared, Bradley H.; Aguilo, Miguel A.; Beghini, Lauren L.; Boyce, Brad B.; Clark, Brett W.; Cook, Adam W.; Kaehr, Bryan J.; Robbins, Joshua R.

Additive manufacturing offers unprecedented opportunities to design complex structures optimized for performance envelopes inaccessible under conventional manufacturing constraints. Additive processes also promote realization of engineered materials with microstructures and properties that are impossible via traditional synthesis techniques. Enthused by these capabilities, optimization design tools have experienced a recent revival. The current capabilities of additive processes and optimization tools are summarized briefly, while an emerging opportunity is discussed to achieve a holistic design paradigm whereby computational tools are integrated with stochastic process and material awareness to enable the concurrent optimization of design topologies, material constructs and fabrication processes.

Quadros, William R.; Elder, Sal E.; Clark, Brett W.; Robbins, Joshua R.

Abstract not provided.

Quadros, William R.; Elder, Salvatore E.; Robbins, Joshua R.; Clark, Brett W.

Abstract not provided.

Quadros, William R.; Elder, Salvatore E.; Robbins, Joshua R.; Clark, Brett W.

Abstract not provided.

Robbins, Joshua R.; Owen, Steven J.; Clark, Brett W.; Voth, Thomas E.

This paper presents an end-to-end design process for compliance minimization based topological optimization of cellular structures through to the realization of a final printed product. Homogenization is used to derive properties representative of these structures through direct numerical simulation of unit cell models of the underlying periodic structure. The resulting homogenized properties are then used assuming uniform distribution of the cellular structure to compute the final macro-scale structure. A new method is then presented for generating an STL representation of the final optimized part that is suitable for printing on typical industrial machines. Quite fine cellular structures are shown to be possible using this method as compared to other approaches that use nurb based CAD representations of the geometry. Finally, results are presented that illustrate the fine-scale stresses developed in the final macro-scale optimized part and suggestions are made as to incorporate these features into the overall optimization process.

Aguilo Valentin, Miguel A.; Beghini, Lauren L.; Clark, Brett W.; Quadros, William R.; Robbins, Joshua R.; Sneed, Brett S.; Voth, Thomas E.

Abstract not provided.

Blacker, Ted D.; Robbins, Joshua R.; Owen, Steven J.; Aguilo Valentin, Miguel A.; Clark, Brett W.; Voth, Thomas E.

Abstract not provided.

Clark, Brett W.; Aguilo Valentin, Miguel A.; Voth, Thomas E.; Robbins, Joshua R.

Abstract not provided.

Clark, Brett W.; Aguilo Valentin, Miguel A.

Abstract not provided.

Jared, Bradley H.; Boyce, Brad B.; Battaile, Corbett C.; Lim, Hojun L.; Tran, Hy D.; Robbins, Joshua R.; Clark, Brett W.; Blacker, Ted D.

Abstract not provided.

Proceedings - ASPE 2015 Spring Topical Meeting: Achieving Precision Tolerances in Additive Manufacturing

Jared, Bradley H.; Boyce, Brad B.; Battaile, Corbett C.; Lim, Hojun L.; Tran, Hy D.; Robbins, Joshua R.; Clark, Brett W.; Blacker, Ted D.

Abstract not provided.

Jared, Bradley H.; Kozuch, Christopher D.; Tappan, Alexander S.; Cook, Adam W.; Bishop, Joseph E.; Adams, David P.; Maguire, Michael C.; Robinson, David R.; Hall, Aaron C.; Carrillo, Lawrence R.; Sego, Abraham L.; Leathe, Nicholas L.; Fuller, Nathan F.; Robbins, Joshua R.; Clark, Brett W.

Abstract not provided.

Owen, Steven J.; Clark, Brett W.; Melander, Darryl J.; Shepherd, Jason F.; Brewer, Michael L.

Abstract not provided.

Owen, Steven J.; Clark, Brett W.; Melander, Darryl J.; Brewer, Michael L.; Shepherd, Jason F.

Abstract not provided.