多通管塑挤胀形工艺的力学分析

讨论了以聚氨酯橡胶棒为胀形介质，采用塑挤胀形复合工艺把无缝管坯一次成形为多通管成品的加工方法，分析了多通管塑挤胀形过程，提出了“应变样条”分析法，进而分析了典型剖面上应力应变状态，讨论了成形力间应具备的合理的数值关系，以使变形区处于最有利于变形的超高的静水压力和合适的偏应力状态，获得尽可能长的支管。     

板料成形优化技术进展与质量工程研究

板料成形过程的优化研究对于改进模具设计、提高产品质量具有重要意义。综述了板料成形工艺优化的研究现状。考虑到在有约束的设计优化中,最优结果常位于约束边界附近,随机因素的波动易导致产品质量不稳定甚至失效,难以保持产品的可靠性和稳健性。为此,本文应用质量工程学中的6σ理念,提出了基于数值模拟的板料成形6σ稳健设计优化方法。     

高压开关压气缸热挤压模具设计

在设备闭合高度有限的情况下 ,设计了1副结构新颖的组合式挤压模具 ,使3150kN油压机设备能力得到了有效的发挥。所述压气缸毛坯生产工艺具有高效节材的特点 ,对类似零件的热挤压工艺及模具结构设计有重要的参考价值。     

热处理工艺对铸造3Cr2MoWVNi热锻模具钢冲击韧度和硬度的影响

研究了热处理工艺对铸造3Cr2MoWVNi热锻模具钢冲击韧度和硬度的影响，结果表明：试验钢在1050℃淬火，650℃回火下，冲击韧度和硬度达到最佳值，分别为72.3J/cm^2和34.5HRC。在最佳热处理工艺下，经RE－Nb变质处理的试验钢的冲击韧度较未变质处理的试验钢有明显提高。     

Strengthening technology and mechanism for semi-solid die casting of aluminum alloy

Combined with theoretical evaluation,an optimized strengthening process for the semi-solid die castings of A356 aluminum alloy was obtained by studying the mechanical properties of castings solution treated and aged under different conditions in detail,then,the semi-solid die castings and liquid die castings were heat treated with the optimized process.The results show that the mechanical properties of semi-solid die castings of aluminum alloy are superior to those of the liquid die castings,especially the strengthening degree of heat treated semi-solid die castingsis much greater than that of liquid die castings with the tensile strength more than 330 MPa and the elongation more than 10％,and this is mainly contributed to the non-dendritic and more compact microstructure of semi-solid die castings.The strengthening mechanism of heat treatment for the semi-solid die castings of A356 aluminum alloy is due to the dispersive precipitation of the second phase(Mg2 Si) and formation of GP Zone.     

冲模设计与制造技术的发展现状及前景

目前，我国模具工业的总体水平比较落后，制造水平以数字控制阶段为主。CAD／CAE／CAPP、FMS和KBR技术是模具设计技术的发展方向。金属高速切削加工和电加工、超精加工和微细加工、复合加工、表面处理、研磨抛光等都是模具加工技术的发展方向。     

Ni－Cr－B－Si合金粉末等离子喷涂层的高温性能及其在滚锻模上的应用

研究了Ｎｉ－Ｃｒ－Ｂ－Ｓｉ合金粉末等离子喷涂层的高温抗氧化性能、耐磨性、热稳定性，并介绍了其在连杆毛坯滚锻模上的应用．结果表明，这种涂层的某些高温性能大大优于５ＣｒＮｉＭｏ钢，在冲击载荷不大的场合，可以作为热锻模的强化方法．     

An Incremental Roll Forming Process for Manufacturing Doubly Curved Sheets from General Quadrilateral Sheet Blanks with Enhanced Process Features

In order to manufacture a doubly curved sheet metal effectively, a flexible incremental roll forming process has been developed by adopting the advantages of the incremental forming process and the roll forming process by combining inherent flexibility of the incremental forming process and continuous deformation of the roll forming process. In the proposed roll forming system, a newly designed gripper system is attached in order to achieve automation and more precision manufacturing of the required sheet intended double curvature. The forming method has been further enhanced to form general quadrilateral blanks (including a square, a rectangle, a symmetrical trapezoid and an asymmetrical trapezoid, etc.) into doubly curved shapes by controlling the forming schedule developed by various experiments.     

Effects of temperature and blank holding force on biaxial forming behavior of aluminum sheet alloys

Biaxial forming behavior is investigated for three aluminum sheet alloys (Al 5182 containing 1% Mn (5182+Mn), Al 5754, and 6111-T4) using a heated die and punch in the warm forming temperature range of 200–350 °C. It is found that, while all three alloys exhibit significant improvement in their formability compared with that at room temperature, the non-heat-treatable alloys 5182 + Mn and 5754 give higher part depths than that of heat-treatable 6111-T4. The formability generally increases with decreasing BHP (BHP), but increasing the forming temperature and/or BHP minimizes the wrinkling tendency and improves the forming performance. The stretchability of the sheet alloys increase with increasing temperature and increasing BHP. For the alloys and forming conditions involved in the current study, the formability, measured in terms of part depth, comes mainly from the drawing of metal into the die cavity, although stretching effects do influence the overall forming behavior. The optimum formability is achieved by setting the die temperature 50 °C higher than the punch temperature to enhance the drawing component. Setting the die temperature higher than the punch temperature also improves the strain distribution in a part in such a manner that postpones necking and fracture by altering the location of greatest thinning.     

金属塑性成形过程的微观组织模拟与优化技术研究现状

介绍了金属塑性成形过程中微观组织演变的数学模型和常用的微观组织优化目标函数 ,给出了金属塑性成形微观组织模拟和优化的主要方法———微观遗传算法和灵敏度分析方法的基本原理 ,叙述了近年来国内外金属塑性成形微观组织模拟与优化研究概况。