COMPUTATIONAL GEOMETRIC SOLUTIONS FOR EFFICIENT ADDITIVE MANUFACTURING PROCESS PLANNING

机译：有效的增材制造过程计划的计算几何解决方案

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Additive manufacturing processes are capable of printing parts with any shape and complexity. The parts fabricated with additive manufacturing processes requires minimum human intervention. Process planning decisions play an important role in making sure the fabricated parts meets the desired specification, including the build time and cost. A quick and unified approach to quantify the manufacturing build time, accuracy, and cost in real time is lacking. In the present research, a generic and near real-time framework for unified additive manufacturing process planning is presented. We have developed computational geometric solutions to estimate tight upper bound of manufacturing process planning decisions that can be analyzed in almost real time. Results of developed computational approach are compared against the optimized process plans to ensure its applicability. Case studies comprising of numerous parts with varying shape, and application area is also outlined.

机译：增材制造工艺能够印刷任何形状和复杂度的零件。用增材制造工艺制造的零件需要最少的人工干预。在确保所制造的零件符合所需的规格（包括制造时间和成本）方面，过程计划决策起着重要作用。缺乏一种快速，统一的方法来实时量化制造时间，准确性和成本。在本研究中，提出了用于统一增材制造过程计划的通用且近乎实时的框架。我们已经开发了计算几何解决方案，以估算可以几乎实时分析的制造过程计划决策的严格上限。将开发的计算方法的结果与优化的过程计划进行比较，以确保其适用性。还概述了案例研究，该案例研究包括许多具有不同形状和应用领域的零件。

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《Computers and information in engineering conference;ASME international design engineering technical conferences and computers and information in engineering conference》|2014年|V01AT02A043.1-V01AT02A043.8|共8页
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Anoop Verma; Rahul Rai;
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Voxelization; process planning; selective laser sintering; slicing; curve fitting;

机译：体素化;工艺计划;选择性激光烧结切片曲线拟合;

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1. Development of an additive and subtractive hybrid manufacturing process planning strategy of planar surface for productivity and geometric accuracy [J] . Zhang Weijun, Soshi Masakazu, Yamazaki Kazuo The International Journal of Advanced Manufacturing Technology . 2020,第5a6期

机译：开发生产力和几何精度平面表面的添加剂和减法混合制造工艺规划策略
2. A computationally efficient hybrid model for simulating the additive manufacturing process of metals [J] . Jayanath Shiyan, Achuthan Ajit International Journal of Mechanical Sciences . 2019,第期

机译：用于模拟金属添加剂制造过程的计算上有效的混合模型
3. A Computationally Efficient Finite Element Framework to Simulate Additive Manufacturing Processes [J] . Jayanath Shiyan, Achuthan Ajit Journal of manufacturing science and engineering: Transactions of the ASME . 2018,第4期

机译：一种计算高效的有限元框架，用于模拟添加剂制造过程
4. COMPUTATIONAL GEOMETRIC SOLUTIONS FOR EFFICIENT ADDITIVE MANUFACTURING PROCESS PLANNING [C] . Anoop Verma, Rahul Rai ASME International Design Engineering Technical Conferences . 2014

机译：有效添加制造过程规划的计算几何解
5. A Computationally Efficient Finite Element Framework to Simulate Additive Manufacturing Processes of Metals [D] . Jayanath, Shiyan. 2018

机译：一种计算高效的有限元框架，用于模拟金属添加剂制造过程
6. Computational analysis of the effects of geometric irregularities and post-processing steps on the mechanical behavior of additively manufactured 316L stainless steel stents [O] . Lisa Wiesent, Ulrich Schultheiß, Philipp Lulla, 2020

机译：几何不规则性和后处理步骤对碱性制造316L不锈钢支架的力学行为的计算分析
7. Computational analysis of the effects of geometric irregularities and post-processing steps on the mechanical behavior of additively manufactured 316L stainless steel stents [O] . Lisa Wiesent, Ulrich Schultheiß, Philipp Lulla, 2020

机译：几何不规则性和后处理步骤对碱性制造316L不锈钢支架的力学行为的计算分析
8. Computational Process Modeling for Additive Manufacturing (OSU). [R] . Bagg, S., Zhang, W. 2015

机译：增材制造（OsU）的计算过程建模。

COMPUTATIONAL GEOMETRIC SOLUTIONS FOR EFFICIENT ADDITIVE MANUFACTURING PROCESS PLANNING

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