DIRECT SELECTIVE LASER SINTERING OF TOOL STEEL POWDERS TO HIGH DENSITY. PART A: EFFECTS OF LASER BEAM WIDTH AND SCAN STRATEGY

机译：直接选择将激光粉末烧结到高密度。 A部分：激光束宽度和扫描策略的影响

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This paper describes progress on the Direct Selective Laser Sintering of M2 and H13 tool steel powders, comparing this with previous and further observations on stainless steel powders. The distinguishing feature is the melting of single tracks and layers in deep powder beds. The paper focuses on changing characteristics of the melt pool (mass, volume, aspect ratio, stability) and laser-powder interactivity as the laser beam width, power and scan speed change. It also compares the melt pool of neighbouring tracks during single layer construction. Simulations from a computer model to predict melt pool shape and dimension show reasonable agreement with experimental results at low scan speeds (0.5mm/s). But unexpected increases in melt depth above 1.0mm/s have been observed, suggesting higher values and more variability in laser absorptivity than expected, even approaching 1.0 for the CO_2 laser radiation used in this work.

机译：本文介绍了M2和H13工具钢粉直接选择性激光烧结的进展，并将其与以前和以后对不锈钢粉的观察结果进行了比较。显着特征是深粉床中单条轨道和层的熔化。本文着重于随着激光束宽度，功率和扫描速度的变化而改变熔池的特性（质量，体积，长宽比，稳定性）和激光与粉末的相互作用。它还比较了单层构造过程中相邻轨道的熔池。通过计算机模型进行的预测熔池形状和尺寸的仿真表明，在低扫描速度（0.5毫米/秒）下，该结果与实验结果具有合理的一致性。但是，观察到熔体深度意外地增加到1.0mm / s以上，这表明该值比预期的更高，并且激光吸收率的变化性比预期的还要高，对于这项工作中使用的CO_2激光辐射甚至接近1.0。

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来源
《Solid Freeform Fabrication Symposium; 20030804-20030806; Austin,TX; US》|2003年|P.644-655|共12页
会议地点 Austin TX(US);Austin TX(US)
作者
C. Hauser; T.H.C. Childs; C.M. Taylor; M. Badrossamay; S. Akhtar; C.S. Wright; M. Youseffi; J. Xie; P. Fox; W. ONeill;
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School Of Mechanical Engineering, University of Leeds, UK;

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原文格式 PDF
正文语种 eng
中图分类工程材料一般性问题;
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1. Scanning strategies and spacing effect on laser fusion of H13 tool steel powder using high power Nd:YAG pulsed laser [J] . V. E. BEAL, P. ERASENTHIRAN, N. HOPKINSON, International Journal of Production Research . 2008,第1期

机译：高功率Nd：YAG脉冲激光对H13工具钢粉激光熔合的扫描策略和间距效应
2. A Study on the Influence of Scanning Strategies on the Levelness of the Melt Track in Selective Laser Melting Process of Stainless Steel Powder [J] . K. Q. Le, C. Tang, C. H. Wong JOM . 2018,第10期

机译：扫描策略对不锈钢粉末选择性激光熔化过程熔体轨道水平性影响的研究
3. Instability of scan tracks of selective laser sintering of high speed steel powder [J] . H.J.Niu, I.T.H.Chang Scripta materialia . 1999,第11期

机译：高速钢粉选择性激光烧结扫描轨迹的不稳定性
4. DIRECT SELECTIVE LASER SINTERING OF TOOL STEEL POWDERS TO HIGH DENSITY. PART A: EFFECTS OF LASER BEAM WIDTH AND SCAN STRATEGY [C] . C. Hauser, T.H.C. Childs, C.M. Taylor, Solid freeform fabrication symposium . 2003

机译：直接选择性激光烧结工具钢粉末高密度。 A部分：激光束宽度和扫描策略的影响
5. Investigation of joining micro-foil materials with selective laser sintering and laser powder deposition. [D] . Deceuster, Andrew I. 2009

机译：利用选择性激光烧结和激光粉末沉积技术连接微箔材料的研究。
6. Analysis of Tribo-Charging during Powder Spreading in Selective Laser Sintering: Assessment of Polyamide 12 Powder Ageing Effects on Charging Behavior [O] . Nicolas Hesse, Maximilian A. Dechet, Juan S. Gómez Bonilla, 2019

机译：选择性激光烧结过程中粉末散布过程中的摩擦充电分析：聚酰胺12粉末老化对充电行为的影响评估
7. Scanning strategies and spacing effect on laser fusion of H13 tool steel powder using high power Nd : YAG pulsed laser [O] . Beal V.E., Erasenthiran Poonjolai, Hopkinson Neil, 2008

机译：高功率Nd：YAG脉冲激光对H13工具钢粉激光熔合的扫描策略和间距效应。
8. Fundamental Models of Selective Laser Sintering of Metal Powders [R] . Zhang, Y. 2006

机译：金属粉末选择性激光烧结的基本模型

DIRECT SELECTIVE LASER SINTERING OF TOOL STEEL POWDERS TO HIGH DENSITY. PART A: EFFECTS OF LASER BEAM WIDTH AND SCAN STRATEGY

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