难加工材料细长薄板件的加工

针对难加工材料细长薄板零件的加工特点,设计了这类零件加工的刨削加工工艺方案,探讨了刨削加工方法在细长薄板零件加工中的应用.     

智能井用管线切割工具设计

采用智能完井技术的油井,修井周期长,长年生产的井中积累较多的油垢、胶质等杂物,修井时起出管柱较为困难。在管柱起出遇卡时,常规的切割工具只能对油管进行切割,无法对井下工具的控制管线进行切割。设计了一种专用的管线切割工具。介绍了该工具的结构、工作原理、技术参数、施工工艺。分析了关键结构的强度。通过ANSYS软件对管线剪切模型进行有限元分析,结果表明管线切割工具可承受拉力达800 kN,可对6根不同尺寸多种组合的控制管线进行切割。进行下部管柱打捞过程中,不会有冗杂的管线阻碍打捞作业。     

深井裸眼封隔器分段酸压管柱打捞实践

安岳气田灯影组气藏广泛采用大斜度井/水平井裸眼封隔器分段酸压工艺试油完井,悬挂封隔器及下部管柱被“永久性”留在井下。如果利用原裸眼侧钻,则需要打捞分段酸压管柱至套管鞋以下30 m左右。MX126井和GS121井前期打捞作业历时均超过50 d,打捞效率非常低,主要原因为：悬挂封隔器双向锚定,裸眼封隔器和连接油管埋卡严重且位于大斜度井段,压井后长时间静止埋卡越来越严重;钻井液压井后切割油管受阻,没有完成落鱼切割分段;套磨铣导致封隔器解体,倒扣时落鱼出现多处退扣,倒扣打捞效率低。针对上述问题,优化了打捞技术措施：钻井液压井前,采用泵送径向切割工艺在清水中切割油管,确保切割成功率;采用带压拔出插管循环压井,缩短钻井液浸泡时间,降低次生卡钻风险;优选磨铣工具和打捞工具,优化磨铣工艺和震击解卡打捞工艺,维持落鱼完整性、力求捞出整段被切割落鱼。该技术成功应用于MX146井和GS127井后期的打捞作业,分别用时12 d和5 d。该技术可以显著提高裸眼封隔器分段酸压管柱的打捞效率,具有推广应用价值。     

Machinability of a nickel aluminide intermetallic alloy

This article reports the results of an experimental study on the machinability of a nickel aluminide intermetallic alloy. Machining was conducted at various speeds, and results indicate low material removal rates. Chips collected for each test run were measured for thickness for shear angle calculation and were subsequently observed microscopically. Chip segmentation was observed microscopically, and a fluctuation in the shear angle was evidenced. A parameter characterizing the severity of the machining process, the chip reduction coefficient (K), was calculated from chip thickness measurements. The calculated values ofK were found to be low, indicating a low severity of the metalcutting process. This, however, is in contract with the observed low rates of metal removal and low tool life. Thus, conventional metalcutting characterization parameters require re- examination in terms of machining high-strength materials.     

Mechanism and prediction of failure of diamond films deposited on various substrates by HFCVD

Diamond films were deposited on the WC-Co cemented carbide and Si3N4 ceramic cutting tool substrates by hot-filament-assisted chemical vapour deposition. The adherence property of diamond films was estimated using the critical load (Pcr) in the indentation test. The adhesive strength of diamond films is related to the intermediate layer between the film and the substrate. Poor adhesion of diamond films to polished cemented carbide substrate is owing to the formation of graphite phase in the interface. The adhesion of diamond films deposited on acid etched cemented carbide substrate is improved, and the peeling-off of the films often happens in the loosen layer of WC particles where the cobalt element is nearly removed. The diamond films' adhesion to cemented carbide substrate whose surface layer is decarbonizated is strengthened dramatically because WC phase forms by reaction between the deposited carbon and tungsten in the surface layer of substrates during the deposition of diamond, which results in chemical combination in the film-substrate interface. The adhesion of diamond films to silicon nitride substrate is the firmest due to the formation of chemical combination of the SiC intermediate layer in the interfaces. In the piston-turning application, the diamond-coated Si3N4 ceramic and the cemented carbide cutting tools usually fail in the form of collapsing of edge and cracking or flaking respectively. They have no built-up edge(BUE) as long as coating is intact.As it wears through, BUE develops and the cutting force on it increases 1 - 3 times than that prior to failure. This can predict the failure of diamond-coated cutting tools.     

碳化钽的加入方式对合金结构和性能的影响研究

对TaC加入到合金中的方式进行了研究，结果表明，以固溶体形式加入的合金的WC相和TiC－TaC－WC相较之以单质（TaC）形式加入的合金的WC相和TiC－TaC－WC相有较粗的亚晶结构和较小的微观应变。与此相对应的是，合金亦具有较好的物理力学性能和较长的切削寿命。     

MILLING PERFORMANCE OF COATED INSERTS WITH VARIABLE COATING THICKNESS ON THEIR RAKE AND FLANK

During the Physical Vapour Deposition of coatings, the orientation of cemented carbides insert surfaces to the plasma flux direction affects the occurring film thickness distribution on the rake and flank, which in turn might influence the wear propagation in cutting processes. In the present paper the cutting performance in milling of PVD coated cemented carbides inserts with variable film thickness on the rake and flank is introduced and with the aid of FEM-supported calculations explained. The investigation results revealed that a thicker film on the tool rake in comparison to the existing one on the flank and moreover a thick and uniformly deposited film in the cutting wedge region significantly enhances the cutting performance in milling.     

稀土对切玻璃金刚石锯片切削性能的影响

金刚石圆锯片可以用于切割玻璃和水晶制品。为了提高切割玻璃金刚石圆锯片的切割寿命和玻璃的切割质量．对切割玻璃金刚石圆锯片的胎体成分进行了优化设计，并在胎体材料中加入稀土化合物La2O3，同时对金刚石表面实施镀钛。本文从胎体材料对金刚石的把持力系数、实际切割的金刚石的脱落度以及锯片的切割速度方面，研究了稀土化合物在金刚石刀头胎体中的作用。结果表明：在胎体金属粉中加入适量的稀土化合物，胎体对金刚石的把持力系数有所改善，同时，增加了刀头胎体材料的脆性，实现了金刚石与胎体的同步磨损，金刚石的脱落度明显减小；切割速度比参比片提高了21．6％。     

Q235钢—冷模具钢轧制复合刀片的组织性能

本文对Ｑ２３５钢－冷模具钢轧制复合刀片的组织和性能进行了研究。结果表明，Ｑ２３５钢－冷模具钢轧制度合界面部位形成了冶金结合，轧制复合刀片的整体力学性能优于整体刀片和焊接复合刀片。     

提高线材厂FJ320减速机齿轮使用寿命的技改措施

针对线材厂FJ320减速机高速齿经常出现磨损、断齿等现象，采取将齿轮材质改为20CrNiMo4A、高频淬火改为表面渗碳淬火等措施，提高了齿轮使用寿命。