Inverse Thermo-Mechanical Processing (ITMP) Design of a Steel Rod During Hot Rolling Process

Anand Balu Nellippallil, P. Mohan, J. Allen, F. Mistree
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引用次数: 11

Abstract

The production of steel products involves a series of manufacturing processes. The material Thermo-Mechanical Processing (TMP) history at each process affects the final properties and performances of the product. Experiments and plant trials to predict these properties and performance of steel products are expensive and time consuming. This has resulted in the need for computational design methods and tools that support a human designer in realizing such complex systems involving the material, product and manufacturing processes from a simulation-based design perspective. In this paper, we present a Goal-oriented Inverse Design method to achieve the integrated design exploration of materials, products and manufacturing processes. The key functionality offered is the capability to carry out a microstructure-mediated design satisficing specific processing requirements and performance goals of the product. Given models to establish the information flow chain, a designer can use the method for the decision-based design exploration of material microstructure and processing paths to realize products in a manufacturing process chain. The efficacy of the method is tested using an industry-inspired hot rolling problem to inversely design the thermo-mechanical processing of a steel rod. The focus here is the method and associated design constructs which are generic and support the formulation and decision-based design of similar problems involving materials, products and associated manufacturing processes.
钢棒热轧过程热力逆加工(ITMP)设计
钢铁产品的生产涉及一系列的制造工序。材料热机械加工(TMP)在每个过程中的历史影响产品的最终性能和性能。预测钢铁产品的这些特性和性能的实验和工厂试验既昂贵又耗时。这导致了对计算设计方法和工具的需求,这些方法和工具支持人类设计师从基于模拟的设计角度实现涉及材料,产品和制造过程的复杂系统。本文提出了一种面向目标的逆向设计方法,以实现材料、产品和制造过程的一体化设计探索。提供的关键功能是执行微结构中介设计的能力,以满足产品的特定加工要求和性能目标。给定建立信息流链的模型,设计人员可以使用该方法对材料微观结构和加工路径进行决策设计探索,以实现制造过程链中的产品。以工业热轧问题为例,对钢棒的热机械加工过程进行反设计,验证了该方法的有效性。这里的重点是方法和相关的设计结构,它们是通用的,并支持涉及材料,产品和相关制造过程的类似问题的制定和基于决策的设计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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