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烧结功率
相关语句
  sintering power
     under p=5.5GPa,P_w=920~1207W,t=440s sintering conditions,the grain size of the nanocrystaline bulk Fe_ 78Si_9B_ 13 alloy increased with the sintering power from 10.3nm to 14.2nm;
     在p=5.5GPa高压烧结条件下,随着烧结功率Pw的增加,块体合金的αFe相晶粒尺寸D逐渐增大,在10.3~14.2nm之间;
短句来源
     the relative density also increased with sintering power,under P_w=1207W sintering conditions,α-Fe phase nanocrystalline bulk alloy with 99.6% relative density could be obtained; the specific saturate magnetization J_s and coercive force H_c of as-acquired nanocrystaline bulk alloy was 1.52T and 1.9kA/m,respectively.
     块体合金的相对密度也随烧结功率Pw升高而增大,当Pw=1207W时,获得了相对密度为99.6%的αFe单相纳米晶块体合金,其饱和磁化强度Js=1.52T,矫顽力Hc=1.9kA/m。
短句来源
     The experiment indicates that the laser sintering power, the thickness of sintering layer, the placement angle influence the surface precision greatly, and scanning space influence the dimension precision of the part greatly.
     试验表明,激光烧结层厚度、制件摆放角度、激光烧结间距等对表面精度的影响大。 激光烧结功率、制件的形状尺寸等对制件尺寸精度影响大。
短句来源
  “烧结功率”译为未确定词的双语例句
     We also can get that 40 W is the best laser power for sintering.
     激光功率为40W时为最佳烧结功率
短句来源
     Based on protecting the laser irradiation and improving the machining efficiency,the optimal processing parameters were adopted,the laser power is(28 W,) the scan speed is(1120 mm/s,) the thickness of the powder is(0.1 mm,) the laser scan space is (0.2 mm,) and the starting temperature of the powder bed is(95 ℃.)
     综合考虑激光器使用寿命及加工效率等因素,较佳的成型工艺参数选择为激光烧结功率28 W,扫描速度1120 mm/s,铺粉厚度0.1 mm,扫描间距0.2 mm,预热温度95℃。
短句来源
     POWER CHARACTERISTIC OF PLASMA SINTERING BY HOLLOW CATHOD DISCHARGE
     空心阴极等离子烧结功率输出特性研究
短句来源
     This article reported the microwave sintering sinthesis methods of Li based intecalation compiund LiMn 2O 4.The sintering product phases varied with the microwave power and the time. The single phase LiMn 2O 4 powder was measured by XRD,IR,XPS,Plasma emission spectroscopy and conventional redox titration.
     本文用微波烧结法合成锂嵌脱材料LiMn2O4,研究了微波烧结功率,时间对固态产物相的影响,对LiMn2O4单相多晶粉末进行了XRD,IR,XPS,等离子体发射光谱及氧化还原等测试。
短句来源
     The concentration and duration of soak were choosen to form orthogonal table with the power and duration of the agglutination, and then the condition for the preparation of the supported catalyst was optimized.
     选取浸泡浓度、浸泡时间、烧结功率和烧结时间四个因素进行正交实验,得出催化剂的最佳制备条件:用0.10mol/1磷钨酸的水溶液浸泡TiO228h,于120℃烘干,再在微波炉650w功率下烧结40min。
  相似匹配句对
     A Study of Sintering of High Frequency MnZn Power Ferrite
     高频MnZn功率铁氧体烧结工艺研究
短句来源
     The increase of the inlet power made the temperature raise rapidly.
     输入功率的提高有助于提高烧结速率;
短句来源
     THE ACOUSTIC POWER OF A PULSED SOUND
     脉冲声的功率
短句来源
     Study and Test of Sinter Fly Ash Ceramsite
     烧结粉煤灰陶粒的研制
短句来源
     High Power Solid-state Lasers
     高功率固体激光器
短句来源
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This article reported the microwave sintering sinthesis methods of Li based intecalation compiund LiMn 2O 4.The sintering product phases varied with the microwave power and the time.The single phase LiMn 2O 4 powder was measured by XRD,IR,XPS,Plasma emission spectroscopy and conventional redox titration.

本文用微波烧结法合成锂嵌脱材料LiMn2O4,研究了微波烧结功率,时间对固态产物相的影响,对LiMn2O4单相多晶粉末进行了XRD,IR,XPS,等离子体发射光谱及氧化还原等测试。

Prototyping shrinkage is a universal phenomena in rapid prototyping technology, and is an insuppressible problem.The shrinkage will lower the accuracy of parts by RP, more badly the process will be halted due to the shrinkage.The combination of prototyping shrinkage is investigated in this paper.Models on the shrinkage by temperature, the shrinkage by sintering shrinkage and crystal shrinkage are investigated respectively farther.The impact of sintering technology on sintering shrinkage is investigated on these...

Prototyping shrinkage is a universal phenomena in rapid prototyping technology, and is an insuppressible problem.The shrinkage will lower the accuracy of parts by RP, more badly the process will be halted due to the shrinkage.The combination of prototyping shrinkage is investigated in this paper.Models on the shrinkage by temperature, the shrinkage by sintering shrinkage and crystal shrinkage are investigated respectively farther.The impact of sintering technology on sintering shrinkage is investigated on these works.At last it is presented that the sintering shrinkage increases with increase of sintering power,with decrease of scanning space and with decrease of scanning velocity,and the sintering shrinkage is related to the length of scanning track but not related to the moving direction of scanning beam.

成型收缩是快速成型技术中存在的一个普遍现象 ,而且是快速成型技术中不可避免的一个问题 ,严重地影响了成型件的精度 ,有时还会影响成型过程的顺利进行。本文研究了成型收缩的组成 ,并分别提出了计算温致收缩、烧结收缩、结晶收缩的计算模型 ,并在此基础上研究了烧结收缩与烧结工艺的关系 ,指出烧结收缩随着烧结功率的增加而增加 ,随着扫描间隔的减小而增加 ,同时烧结收缩还与烧结扫描线的长度有关 ,而与成型的方向无关

The thermal stability of Fe_ 78Si_9B_ 13 melt-spinning strip and the influence of high-pressure sintering conditions on phase components and grain size of ball milling powder of Fe_ 78Si_9B_ 13 alloy were investigated by XRD,DTA. The results show that:α-Fe phase crystallization temperature of Fe_ 78Si_9B_ 13 amorphous alloy was about 469℃;the second phase Fe_2B crystallization temperature was 509℃;under p=5.5GPa,P_w=920~1207W,t=440s sintering conditions,the grain size of the nanocrystaline bulk Fe_ 78Si_9B_...

The thermal stability of Fe_ 78Si_9B_ 13 melt-spinning strip and the influence of high-pressure sintering conditions on phase components and grain size of ball milling powder of Fe_ 78Si_9B_ 13 alloy were investigated by XRD,DTA. The results show that:α-Fe phase crystallization temperature of Fe_ 78Si_9B_ 13 amorphous alloy was about 469℃;the second phase Fe_2B crystallization temperature was 509℃;under p=5.5GPa,P_w=920~1207W,t=440s sintering conditions,the grain size of the nanocrystaline bulk Fe_ 78Si_9B_ 13 alloy increased with the sintering power from 10.3nm to 14.2nm;the relative density also increased with sintering power,under P_w=1207W sintering conditions,α-Fe phase nanocrystalline bulk alloy with 99.6% relative density could be obtained; the specific saturate magnetization J_s and coercive force H_c of as-acquired nanocrystaline bulk alloy was 1.52T and 1.9kA/m,respectively.

借助XRD、DTA等分析手段,研究了快淬Fe78Si9B13非晶带的热稳定性,分析了高压烧结条件对球磨非晶粉末烧结获得的块体合金相对密度和晶粒尺寸的影响。结果表明:该非晶合金中,αFe相初始晶化温度为469℃,Fe2B第二相初始析出温度为509℃;在p=5.5GPa高压烧结条件下,随着烧结功率Pw的增加,块体合金的αFe相晶粒尺寸D逐渐增大,在10.3~14.2nm之间;块体合金的相对密度也随烧结功率Pw升高而增大,当Pw=1207W时,获得了相对密度为99.6%的αFe单相纳米晶块体合金,其饱和磁化强度Js=1.52T,矫顽力Hc=1.9kA/m。

 
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