热解碳的英文

• pyrolytic carbon silicon carbide mixture

• "热解"英文翻译    pyrolyzation; pyrolysis; pyr ...
• "碳"英文翻译    carbon
• "内热解碳层" 英文翻译 :    inner pyrolytic carbon layer
• "热解碳瓣片" 英文翻译 :    carbon pyrolytic disk
• "热解碳层" 英文翻译 :    pyrolytic carbon layer
• "热解碳化硅" 英文翻译 :    pyrolytic silicon carbide
• "蛤同性热解碳" 英文翻译 :    isotropic pyrocarbon
• "甲烷热解碳涂敷层" 英文翻译 :    methane derived coating
• "热解碳膜电阻器" 英文翻译 :    pyrolytic carbon film resistor
• "热解碳涂敷颗粒" 英文翻译 :    pyrolytic carbon coated particle; pyrolytic carbon-coated particle
• "热解碳涂敷燃料" 英文翻译 :    pyrolytic carbon coated fuel
• "带热解碳瓣片的碟瓣" 英文翻译 :    carbon pyrolyte disc valve
• "热解" 英文翻译 :    pyrolyzation; pyrolysis; pyrogenic decomposition; themolysis
• "降解碳" 英文翻译 :    degradable carbon
• "溶解碳" 英文翻译 :    dissolved carbon
• "解碳链作用" 英文翻译 :    desmolysis
• "可降解碳" 英文翻译 :    degradable carbon
• "煤热解" 英文翻译 :    coalite pyrolysis; pyrolysis of coal
• "热解的" 英文翻译 :    pyrogenic; pyrolytic
• "热解法" 英文翻译 :    rubber vulcanized-determination of carbon black content-pyrolytic method
• "热解离" 英文翻译 :    thermal dissociation
• "热解炉" 英文翻译 :    pyrolysis oven; pyrolyzing furnace; thermal decomposition furnace
• "热解器" 英文翻译 :    purolyzer; pyrolysis apparatus; pyrolyzer
• "热解区" 英文翻译 :    pyrolysis zone
• "热解室" 英文翻译 :    pyrolysis chamber

• Release behavior of hydrocarbon components of superfine pulverized coal pyrolyzed under reburning conditions
  再燃条件下超细煤粉热解碳氢组分的析出特性
• The pyrolysis of scrap tires is to achieve energy recovery buy converting tires to oil , char and gas
  废轮胎的热解工艺以制取热解油、热解碳和热解燃气的形式实现能源回收。
• Decohesion and sliding are enhanced thanks to the anisotropy if the graphite sheets at the interphase / matrix interface
  而3d - c sic中界面处热解碳层的各向异性结构会促进界面层的脱粘和滑动。
• It is shown that cte of the composites decrease gradually with pyc interphase thickness increasing when it is in a certain thickness range ( about 70 ~ 220nm )
  结果表明，当界面层厚度处于一定范围(约70 220nm )内时， c sic复合材料的热膨胀系数随热解碳厚度的增加而逐渐降低。
• It " s the first time in ohioa to apply auto - control technique to preparing lti , and it also provide a basis for the multi - factor analysis of preparing lti by using computer
  在国内首次将自动控制技术应用到热解碳制作工艺流程上。为使用微机对热解碳制备工艺中的多因素综合分析奠定了基础。
• But the technique of preparing lti ( low temperature isotropic pyrolitic carbon ) - the material of making art if icial heart vaive - is very complex and difficult , which need a high temperature environment above 1000 in the fiuidized - bed
  但是，制备人工心瓣的材料?低温热解碳的制备工艺却是一个极复杂的过程，其制备环境要在大于1000的高温炉内进行。
• Moreover , thermal shock behavior of 3d - c / sic was distinctly superior to that of recrystallization sic , and when the deposition time of pyrocarbon was 20h , 3d - c / sic possessed the longest thermal shock life
  3d - c sic复合材料的抗热震性能明显优于重结晶sic陶瓷材料；三种界面层的3d - c sic中，以热解碳沉积时间为20小时获得的界面层复合材料热震寿命最长。
• 3d - c / sic fabricated with t300 carbon fibers weaved into 3 - dimensional and 4 - directional structure , was deposited pyrocarbon and sic matrix at 950 - 1000 with cvi method . fiber volume fraction of 3d - c / sic was 40 - 45 % , composite density was 2 . 01g / cm3 and porosity was 17 % . in addition , the thickness of pyrocarbon interface was 200 nm for interaction fatigue - creep ; the interface layer of pyrocarbon for thermal shock had three thickness obtained by controlling deposition time which were 10h , 20h , 30h , respectively
  3d - c sic是用t300碳纤维编织成三维四向编织体， cvi法在950 - 1000致密，纤维体积分数为40 - 45 ，密度为2 . 01g cm ~ 3和孔隙率为17 ，用于疲劳蠕变交互作用试验热解碳界面层厚度约0 . 2 m ；用于热震试验的有三种界面层厚度分别是热解碳沉积时间10小时、 20小时、 30小时获得。
• The method for assessing the degree of bacterial adhesion to prosthetic valve materials was established primarily . the capacities of staphylococcus aureus ( sa ) , staphylococcus epidermidis ( se ) , escherichia coli ( ec ) and pseudomonas aeruginosa ( pa ) for adhesion to dacron , pyrolytic carbon and polytetrofluoroethylene ( ptfe ) were quantitatively determined by the plate counting and gamma - ray counting of 125i radiolabeled bacteria in vitro
  采用平板菌落计数法、 125i标记细菌放射性测定法，测定金黄色葡萄球菌、表皮葡萄球菌、大肠杆菌、绿脓杆菌对涤纶、热解碳、聚四氟乙烯的粘附情况。
• An optimized cvi - pip process has been achieved , by which the c / sic composites with 2 . 1 ig / cm3 high density and uniformity are fabricated in 200 hours . the microstructure and composition of pyrolytic carbon interphase and cvi - pip silicon carbide matrix in the c / sic composites are investigated with the help of polarization microscope , scanning electron microscope , and x - ray diffraction technique , etc . the structure characteristic of pyrolytic carbon interphase and cvi - pip silicon carbide matrix , and effects of cvi - pip process on it are summarized and discussed . by growth course and feature of pyrolytic carbon interphase and cvi - pip silicon carbide matrix analyzed , a whole - course densification mechanism of lamellar - growth - pattern is proposed to explain the densification phenomenon , which makes a systematic understanding on the feature of pyrolytic carbon interphase and cvi - pip silicon carbide matrix , and the multiple stitching interface binding
  根据热解碳中间相、 cvi - pip系sic基体相的组织构成与外貌特征，通过对热解碳中间相、 cvi - pip系sic基体相的生长过程和生长特征进行分析，提出了基于层生长模式的致密化过程理论，解释了热解碳中间相、 cvi - pip系sic基体相以及钉扎诱导结构多重界面的形成： ( 1 )在1150下， cvi - sic亚基体相遵从“过饱和?凝聚?融合”机理沉积，以8f型? sic为主，同时还会有少量4h型? sic ，无游离si和游离c存在； ( 2 ) pip - sic亚基体相由非晶态sic以及弥散分布的- sic微晶、 si - o - c和游离c组成； ( 3 )热解碳中间相与碳纤维增强相之间、 cvi - sic亚基体相之间形成渗透钉扎结构过渡界面， pip - sic亚基体相与摘要cvi一sic亚基体相之间形成诱导结构过渡界面。

• 热解碳的日语：ピロリティツクカーボン ねつぶんかいたんそ