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solution treatment temperature
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  固溶处理温度
     Effect of Solution Treatment Temperature on the Damping Capacity of Fe-14Mn-0.22C
     固溶处理温度对Fe-14Mn-0.22C减振合金阻尼性能的影响
短句来源
     The results show that the structure of Ti-22Nb-6Zr alloy after solution treatment shows granular β-type phase, and grain dimension increases with solution treatment temperature increasing.
     结果表明:固溶处理后Ti-22Nb-6Zr合金的室温组织为单一的β相,晶粒尺寸随固溶处理温度升高而增大;
短句来源
     The hot work temperature of the duplex stainless steel should be higher than 1 040℃and its optimum solution treatment temperature is 1 040-1 100℃.
     该双相不锈钢的热加工温度应大于1 040℃,其最佳固溶处理温度为1 040~1 100℃。
短句来源
     The ZL5012 alloy (Al-Zn-Mg-Fe) squeeze castings have high quality surface and sound structure. After heat treatment, they may be obtained high mechanical properties,ab = 490~530MPa, 6= 3~5% In addition, the solution treatment temperature range of ZL5012 alloy is wide.
     ZL5012合金(Al-Zn-Mg-Fe)挤压铸件有好的表面质量和致密的组织结构,经热处理后,能获得高的机械性能,σb=490~530MP_a,δ=3~5%。 此外,该合金还有固溶处理温度范围宽的特点。
短句来源
     By means of a pretreatment at 1150℃ for 8h, Ni5Hf phase can be eliminated and therefore the final solution treatment temperature can be raised nearly 50℃ which brings about a homogenezing effect and further increase in the stress-rupture properties of the alloy at 1040℃.
     通过1150℃/8h预处理可消除合金中的Ni_5Hf相,从而可使最终固溶处理温度提高50℃,取得明显的均化效果,进一步提高定向合金1040℃持久性能。
短句来源
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  固溶温度
     Study on Solid Solution Treatment Temperature for Al-Li Alloy CP276
     CP276铝-锂合金的固溶温度研究
短句来源
     The results show that when the solution treatment temperature is within the range of 1180-1200~C, better endurance properties can be e obtained, and that further improvement of the endurance property can be obtained by adding a high temperature aging treatment within the temperature range 1070-1110℃. The final aging temperature is 850℃.
     研究表明:当固溶温度为1180-1200℃时,可以获得良好的持久性能,增加一次中间高温时效处理,在1070-1110℃温度范围内又可进一步提高合金的持久性能,最终时效温度为850℃。
短句来源
     A set of solution treatments of 680℃/1 h, 715℃/1 h, 750℃/1 h and 820℃/1 h, followed by water quench(WQ), air cooling(AC) and furnace cooling(FC) were carried out, respectively. The effects of solution treatment temperature and cooling rate on the microstructure and mechanical properties of the TLM alloy tube were studied.
     对冷轧加工管材进行680℃,1h,715℃,1h,750℃,1h,820℃,1h固溶处理后分别水淬(WQ)、空冷(AC)、炉冷(FC),研究了固溶温度、冷却速度对管材显微组织和拉伸力学性能的影响。
短句来源
     In this paper the effects of solution treatment temperature and time on the overheating structure characteristics and the tensile properties of alloys in T5 condition have been studied.
     本文研究了ZL205A合金过烧组织特征与固溶温度及时间的关系,对T5状态过烧组织性能的影响。
短句来源
     The fragment and dissolution of Al2Cu phases were found to accelerate obviously with the increase of solution time when the solution treatment temperature increased to above 510 ℃.
     固溶温度升高到510℃后,随着固溶时间的增加,Al2Cu相断裂及溶入Al基体中的速度明显加快;
短句来源
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  溶温度
     Study on Solid Solution Treatment Temperature for Al-Li Alloy CP276
     CP276铝-锂合金的固溶温度研究
短句来源
     The results show that when the solution treatment temperature is within the range of 1180-1200~C, better endurance properties can be e obtained, and that further improvement of the endurance property can be obtained by adding a high temperature aging treatment within the temperature range 1070-1110℃. The final aging temperature is 850℃.
     研究表明:当固溶温度为1180-1200℃时,可以获得良好的持久性能,增加一次中间高温时效处理,在1070-1110℃温度范围内又可进一步提高合金的持久性能,最终时效温度为850℃。
短句来源
     A set of solution treatments of 680℃/1 h, 715℃/1 h, 750℃/1 h and 820℃/1 h, followed by water quench(WQ), air cooling(AC) and furnace cooling(FC) were carried out, respectively. The effects of solution treatment temperature and cooling rate on the microstructure and mechanical properties of the TLM alloy tube were studied.
     对冷轧加工管材进行680℃,1h,715℃,1h,750℃,1h,820℃,1h固溶处理后分别水淬(WQ)、空冷(AC)、炉冷(FC),研究了固溶温度、冷却速度对管材显微组织和拉伸力学性能的影响。
短句来源
     In this paper the effects of solution treatment temperature and time on the overheating structure characteristics and the tensile properties of alloys in T5 condition have been studied.
     本文研究了ZL205A合金过烧组织特征与固溶温度及时间的关系,对T5状态过烧组织性能的影响。
短句来源
     The fragment and dissolution of Al2Cu phases were found to accelerate obviously with the increase of solution time when the solution treatment temperature increased to above 510 ℃.
     固溶温度升高到510℃后,随着固溶时间的增加,Al2Cu相断裂及溶入Al基体中的速度明显加快;
短句来源
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  “solution treatment temperature”译为未确定词的双语例句
     The solution treatment temperature of ZGOCr13Ni5Mo2Cu2Nb steel is 1100℃ mostly.
     ZG0Cr13Ni5Mo2Cu2Nb钢固溶化温度较锻钢偏高,以1100℃固溶处理为最佳。
短句来源
     Effect of Solution Treatment Temperature on the Microstructure and Properties of 2A70 Aluminium Alloy
     固溶加热温度对2A70铝合金组织与性能的影响
短句来源
     The homogenization of CoCrMoC alloy was not completed when the solution treatment temperature was under 1100℃.
     1100℃以下温度固溶处理,合金均匀化不完全;
短句来源
     The results showed that with the extension of solution time, the dissolution of a small amount of Al2Cu takes place at solution treatment temperature of 495 ℃ through fragmentation of the phase and dissolution into the surrounding Al matrix.
     结果表明,在495℃下,随着固溶时间的延长,小部分Al2Cu相会发生相断裂,并溶入Al基体中;
短句来源
     In order to improve the quality of 18-8 type stainless Steel spring wire,its production technology is discussed from such aspects as raw material selecting,solution treatment,drawing and straightening. Some relative technological main points are found out,which are to control the content of C,N,Cr,Ni,Mn and Si,the solution treatment temperature is determined at 1?
     为提高 18 -8型不锈弹簧钢丝的质量水平 ,从原材料选择、固溶处理、拉拔、矫直等方面进行探讨 ,找出相关的技术要点 ,即控制C、N、Cr、Ni、Mn和Si含量 ;
短句来源
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  solution treatment temperature
Specimens were cooled from the solution treatment temperature following 58 different cooling paths including interrupted and delayed quenches.
      
Time-temperature-precipitation (TTP) diagrams were determined between 400° and 900°C for up to 3000 hr as a function of carbon content, solution treatment temperature, and cold work.
      
The optimum solution treatment temperature for Al-6Si-3.5Cu-0.3Mg-lFe alloys is found to be between 515 °C and 520 °C.
      
Both cold and hot deformed samples were annealed at the normal solution treatment temperature of 535 °C.
      
Theα precipitates (formed during continuous cooling from the solution treatment temperature, low-temperature aging, and high-temperature aging) always obeyed the Burgers orientation relationship.
      
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The structural changes in certain quenched ferritic, austenitic and duplex stainless steels during subsequent reheating are described and discussed in detail.In 16-6 Cr-Mo stainless steel, austenite formed at certain solution treatment temperature is metastable and decomposes during subsequent reheating. New ferrite α′ forms at the γ/α interphase boundaries, the rejected carbon atoms then diffuse into the matrix forming alloyed carbides surrounding the γ/α phase boundarries.Fine carbides precipitated from...

The structural changes in certain quenched ferritic, austenitic and duplex stainless steels during subsequent reheating are described and discussed in detail.In 16-6 Cr-Mo stainless steel, austenite formed at certain solution treatment temperature is metastable and decomposes during subsequent reheating. New ferrite α′ forms at the γ/α interphase boundaries, the rejected carbon atoms then diffuse into the matrix forming alloyed carbides surrounding the γ/α phase boundarries.Fine carbides precipitated from ferrite in 16-6 Cr-Mo, 16-2.5-6 Cr-Ni-Mo, and 16-5-6 Cr-Ni-Mo steels in the early stages of ageing are metastable, during prolonged heating they redissolve and are gradually replaced by χ-phase. Some residual carbides serve as the nuclei of the growing χ-phase. The structure of quenched 16-15-6 Cr-Ni-Mo steel is austenitic, during subsequent heating only M_6C and M_(23)C_6 mixed carbides are precipitated.Both the alloyed carbides and χ-phase may markedly affect the hardness of the steels studied. In the duplex steels χ-phase is a good strengthener, manifesting pronounced hardening effect at elevated temperature.

本文叙述并讨论了几种固溶处理过的高钼不锈钢在不同温度时效过程中,组织结构变化的情况.16-6Cr-Mo不锈钢在800-1000℃保温,δ-铁素体首先在原来的γ/α相界上形成,然后或者由奥氏体晶粒四周向着中心,或者由晶粒一端向着另外一端推进,最后奥氏体将退缩到晶粒中心或者一个晶粒隅上消失.在600-700℃保温,则发现有层片状铁素体在奥氏体晶粒内形成,然后逐渐增多长大,最后全部代替了奥氏体.在16-6Cr-Mo、16-2.5-6及16-5-6Cr-Ni-Mo不锈钢中,从铁素体内沉淀出来的细小碳化物是一种过渡组织,在x相的成核与长大过程中,它们将不断地进行溶解.16-15-6 Cr-Ni-Mo不锈钢属奥氏体型,在不同温度进行固溶处理,奥氏体都很稳定,在随后的恒温处理过程中,只有碳化物从奥氏体内析出.在这几种钢中碳化物及x相的析出,均能显著地改变钢的硬度.在所研究的两种复相不锈钢中,都观察到有由于x相析出所引起的沉淀硬化现象.

The effect of different cooling rates ( WQ, AC and FC ) from various heating temperatures on the microstructures of BT3-1 titanium alloy has been studied by means of X-ray diffraction, optical metallography and transmisson electron microscopy. The α" martensite structure was obtained by water quenching from P field temperatures, and the α" and α phases from upper temperatures of (α+β) field. By quenching from 900℃, the α, α" and P phases were confirmed, and only a and P phases were formed after...

The effect of different cooling rates ( WQ, AC and FC ) from various heating temperatures on the microstructures of BT3-1 titanium alloy has been studied by means of X-ray diffraction, optical metallography and transmisson electron microscopy. The α" martensite structure was obtained by water quenching from P field temperatures, and the α" and α phases from upper temperatures of (α+β) field. By quenching from 900℃, the α, α" and P phases were confirmed, and only a and P phases were formed after water quenching from 850℃. The changes of lattice parameters, Sub-structures and microhardness of α" phase obtained by quenching from different temperatures were also investigated. Air or furnace cooling from different solution treatment temperatures produced various morphologies of α and β phases.

利用X射线、光学金相和透射电镜等手段,研究了由各种加热温度、不同冷速(水淬、空冷和炉冷)对BT3-1钛合金微观组织的影响。从β区温度水淬,形成α″马氏体;在(α+β)相区上部温度水淬,得α″和α相;900℃水淬,可得α″、α和β相;由850℃水淬只获α和β相。考察了α″马氏体的点阵常数变化、亚结构变化和硬度的变化。自各固溶温度空冷或炉冷,获得各种形态的α相和β相。

The peak at 1135-1160℃ on the DTA curve during heating corresponds to the melting range of Ni5Hf phase as its volume fraction is greater than 1 %.The formation of the Ni5Hf phase induced the incipient melting of Hf-bearing cast nickel-base superalloy. A distinct segregation of Ni5Hf phase between the top and the bottom of the directionally solidified ingots was noticed, and consequently their sensitivities to incipient melting are quite different. It was found that more Ni5Hf phases were formed in the low-carbon...

The peak at 1135-1160℃ on the DTA curve during heating corresponds to the melting range of Ni5Hf phase as its volume fraction is greater than 1 %.The formation of the Ni5Hf phase induced the incipient melting of Hf-bearing cast nickel-base superalloy. A distinct segregation of Ni5Hf phase between the top and the bottom of the directionally solidified ingots was noticed, and consequently their sensitivities to incipient melting are quite different. It was found that more Ni5Hf phases were formed in the low-carbon or carbon-free zone of the alloy DZ22 and promoted incipient melting of the alloy.By means of a pretreatment at 1150℃ for 8h, Ni5Hf phase can be eliminated and therefore the final solution treatment temperature can be raised nearly 50℃ which brings about a homogenezing effect and further increase in the stress-rupture properties of the alloy at 1040℃.

含Hf合金的Ni_5Hf相含量超过1.0%(体积)时,在加热示差热分析曲线的1135~1160℃温度范围出现Ni_5Hf熔化峰。 Ni_5Hf相的存在诱发了含Hf铸造镍基高温合金的初熔。低碳或无碳DZ22合金形成更多的Ni_5Hf相,促进了合金的初熔。 通过1150℃/8h预处理可消除合金中的Ni_5Hf相,从而可使最终固溶处理温度提高50℃,取得明显的均化效果,进一步提高定向合金1040℃持久性能。

 
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