节能型钢丝热处理马弗炉

介绍一种钢丝热处理马弗炉的结构特点，节能效果及热处理后的质量指标。     

可膨胀管技术及其管材性能

由于可膨胀管技术应用范围广,近几年在国外得到了极大的发展.可膨胀管技术利用液压或机械方式使管材直径增大,从而保持较大的井径.作为可膨胀管的材料必须具有足够高的变形能力,且膨胀后的力学性能基本能达到普通套管的水平.提出可膨胀管的管材需具有较低屈强比、较高的形变强化指数等性能,且其变形能力可通过改善组织及合理的热处理工艺加以提高,可选用常规套管材料、特种材料及管线钢等.     

一段转化炉下猪尾管的延寿和寿命预测

对大型合成氨一段转化炉下猪尾管材料的劣化和损伤机制进行了研究，探讨了经固溶热处理后材料蠕变性能的恢复情况．并预测其剩余寿命．研究结果表明，对下猪尾管材料在使用一段时间后，可采用固溶热处理的方法，恢复材料的主体组织和性能，达到延寿目的，但材料在服役期的表层损伤不能依靠固溶热处理得到解决．     

热处理温度对Mn－Co－Ni厚膜热敏电阻浆料特性的影响

通过对Ｍｎ－Ｃｏ－Ｎｉ系过渡金属氧化物材料和导电相进行热处理，使Ｍｎ－Ｃｏ－Ｎｉ浆料制作的热敏电阻敏感特性和阻值分散性明显改善。     

半硬磁性FeCrCo合金的热处理工艺及其对性能的影响

用传统的铁铬钴制造方法结合固溶、磁场热处理、时效工艺制备了半硬磁性铁铬钴合金。分析了热处理工艺对合金磁性能的影响。结果表明,热处理的温度和时间对合金磁性能有显著影响。通过改变铁铬钴永磁合金的热处理工艺,可得到不同性能的半硬磁类合金,以满足不同的应用需求。在此基础上总结了工艺控制要点。最后指出,采用合适的设备及工艺控制方法,可以控制半硬磁合金的矫顽力偏差在4kA/m以内。     

Hot-dip galvanizing of cold-formed steel hollow sections: a state-of-the-art review

A good understanding of the effects of galvanizing on the short- and long-term behaviours of steel components is essential for structural design. This review paper is motivated by a series of recent reports on cracking in galvanized cold-formed tubular steel structures and the limitations of current steel product standards and steel design specifications in this field. The steel-related and galvanizing-related factors, different pre-galvanizing countermeasures for brittle cracking and the available technical documents are summarized. An extensive bibliography is provided as a basis for future research and development in this field.     

热处理对竹材性能及变色的影响

总结了竹材在热处理方面的应用以及热处理对其物理力学性能和颜色的影响,并对竹材热处理技术在国内外的研究作了展望.     

热处理对鸭梨汁色泽和稳定性影响研究

研究了热处理对鲜榨鸭梨汁色泽和稳定性的影响及处理后4℃下贮藏期间鸭梨汁品质的变化。研究结果表明,不同温度和时间热处理后的鸭梨汁L值显著降低,ΔE值显著增加（p〈0.05）,透光率有不同程度的下降,一级动力学公式能很好地分析L值的变化。4℃下贮藏4周内,鸭梨汁色泽指标和稳定性指标随处理温度的变化存在不同程度的变化,表明不同热处理对鸭梨汁色泽和稳定性影响显著（p〈0.05）。     

热处理对于鸡蛋全蛋液功能性质的影响

研究了不同强度的热处理条件（处理温度61、64、67℃,处理时间2.5、3.5、4.5min）对于鸡蛋全蛋液蛋白质的溶解性、乳化性、起泡性、表面疏水性和表面巯基含量的影响。结果表明：随着加热温度的升高和处理时间的延长,全蛋液蛋白质溶解度与泡沫稳定性不同程度的下降,而表面疏水性、表面游离巯基含量、乳化稳定性则不同程度的提高。当温度高于61℃时,全蛋液起泡性随温度升高和时间的延长而降低,同时,研究还发现热处理对于全蛋液乳化活力的影响不明显。     

Fabrication of composites from different carbon content ferrous powders adopting thermomechanical processes

In this research, deep consolidation technique is utilized for processing of low and high carbon content ferrous powders to manufacture composite material. High carbon content ferrous powders were used as reinforcing material. The powder particles were allowed to mix with low carbon content ferrous powders in 50:50 weight percent for fabrication of composites. The composites were heat treated at three different temperatures (i.e., 800°C, 900°C, and 1000°C). The changes in microstructure, microhardness, the grain size, and bonding among powder particles were studied. Refinement of grains was observed and this led to improved hardness enabling the processed material to be used as a suitable composite. Abrasive wear tests were carried out using a laboratory tribometer in dry reciprocating sliding contact against Sic abrasive paper. The outcomes demonstrate that the abrasive wear resistance was notably affected by the treatment temperature and hardness of the composites.