Yunlong Tang scite author profile

The lattice structure is a type of cellular material with trusslike frames which can be optimized for specific loading conditions. The fabrication of its intricate architecture is restricted by traditional manufacturing technologies. However, additive manufacturing (AM) enables the fabrication of complex structures by aggregation of materials in a layer-by-layer fashion, which has unlocked the potential of lattice structures. In the last decade, lattice structures have received considerable research attention focusing on the design, simulation, and fabrication for AM techniques. And different modeling approaches have been proposed to predict the mechanical performance of lattice structures. This review introduces the aspects of modeling of lattice structures and the correlation between them, summarizes the existing modeling approaches for simulation, and discusses the strength and weakness in different simulation methods. This review also summarizes the characteristics of AM in manufacturing cellular materials and discusses their influence on the modeling of lattice structures.

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Optimal design and modeling of gyroid-based functionally graded cellular structures for additive manufacturing

Liao

Dai

et al. 2018

Computer-Aided Design

215

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A framework to reduce product environmental impact through design optimization for additive manufacturing

Tang

Mak

Zhao

2016

Journal of Cleaner Production

188

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Optimizing process parameters of fused deposition modeling by Taguchi method for the fabrication of lattice structures

Dong

Wijaya

Tang

et al. 2018

Additive Manufacturing

119

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A survey of the design methods for additive manufacturing to improve functional performance

Tang

Zhao

2016

Rapid Prototyping Journal

165

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Purpose -This paper aims to provide a comprehensive review of the state-of-the-art design methods for additive manufacturing (AM) technologies to improve functional performance. Design/methodology/approach -In this survey, design methods for AM to improve functional performance are divided into two main groups. They are design methods for a specific objective and general design methods. Design methods in the first group primarily focus on the improvement of functional performance, while the second group also takes other important factors such as manufacturability and cost into consideration with a more general framework. Design methods in each groups are carefully reviewed with discussion and comparison. Findings -The advantages and disadvantages of different design methods for AM are discussed in this paper. Some general issues of existing methods are summarized below: most existing design methods only focus on a single design scale with a single function; few product-level design methods are available for both products' functionality and assembly; and some existing design methods are hard to implement for the lack of suitable computer-aided design software. Practical implications -This study is a useful source for designers to select an appropriate design method to take full advantage of AM. Originality/value -In this survey, a novel classification method is used to categorize existing design methods for AM. Based on this classification method, a comprehensive review is provided in this paper as an informative source for designers and researchers working in this field.

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Yunlong Tang

A Survey of Modeling of Lattice Structures Fabricated by Additive Manufacturing

Optimal design and modeling of gyroid-based functionally graded cellular structures for additive manufacturing

A framework to reduce product environmental impact through design optimization for additive manufacturing

Optimizing process parameters of fused deposition modeling by Taguchi method for the fabrication of lattice structures

A survey of the design methods for additive manufacturing to improve functional performance

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