Using surfacing welding technology to manufacture economical molds

IF 2 Q2 ENGINEERING, MECHANICAL Frontiers in Mechanical Engineering Pub Date : 2024-07-04 DOI:10.3389/fmech.2024.1397767
Yongcheng Mu
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Abstract

Introduction: As an economical and fast process method for surface modification of materials, overlay welding is increasingly widely used in the manufacturing and repair of parts in various industrial sectors.Methods: This study combines grating projection measurement to design an economical mold arc additive process, and introduces point cloud simplification algorithm for wear and repair design of the mold structure. Then, a new method for manufacturing low-cost, long-life, and economical hot stamping die inserts is designed, using low-cost forged steel and cast steel as substrates and surface welding of high-temperature alloy wear-resistant layers. Results and Discussion: The experiment shows that the proposed algorithm for simplifying scattered molds has a good evaluation effect, without any gaps, and has a good retention effect on point clouds. The maximum and minimum distances are 0.45 mm and 0.025 mm, respectively. The friction coefficient of cobalt based alloys at 300°C is lower than that at 200°C, and the fluctuation period at 200°C is significantly longer than that at 300°C. HSTS steel has the highest wear resistance, and the performance of cobalt-based alloys is significantly better than that of other alloys. The compressive yield strength of iron-based alloys is the highest, and the hardness of iron-based alloys is the highest, at 53.2 HRC. Therefore, iron-based alloys were selected as a surface wear-resistant layer welding material for economical molds with cooling channels, and cobalt-based alloys were also selected as a surface wear-resistant layer welding material for variable strength economical molds. The research results provide a reference for economic mold manufacturing and repair.
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使用堆焊技术制造经济型模具
简介:作为一种经济、快速的材料表面改性工艺方法,堆焊越来越广泛地应用于各种工业领域的零件制造和维修:作为一种经济、快速的材料表面改性工艺方法,堆焊越来越广泛地应用于各工业领域的零件制造和修复:本研究结合光栅投影测量设计了一种经济的模具电弧添加工艺,并引入点云简化算法进行模具结构的磨损和修复设计。然后,以低成本的锻钢和铸钢为基材,表面焊接高温合金耐磨层,设计了一种制造低成本、长寿命、经济型热冲压模具镶件的新方法。结果与讨论:实验表明,所提出的散模简化算法具有良好的评价效果,没有任何缝隙,对点云具有良好的保留效果。最大和最小距离分别为 0.45 毫米和 0.025 毫米。钴基合金在 300°C 时的摩擦系数低于 200°C,200°C 时的波动周期明显长于 300°C。HSTS 钢的耐磨性最高,钴基合金的性能明显优于其他合金。铁基合金的抗压屈服强度最高,硬度也最高,达到 53.2 HRC。因此,铁基合金被选为带冷却通道的经济型模具的表面耐磨层焊接材料,钴基合金也被选为变强度经济型模具的表面耐磨层焊接材料。研究成果为经济型模具的制造和修复提供了参考。
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来源期刊
Frontiers in Mechanical Engineering
Frontiers in Mechanical Engineering Engineering-Industrial and Manufacturing Engineering
CiteScore
4.40
自引率
0.00%
发文量
115
审稿时长
14 weeks
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