- 更多网络例句与松模相关的网络例句 [注:此内容来源于网络,仅供参考]
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In plastic step sucking back is very important too. Sucking back include front sucking back and back sucking back It setting sucking back to prevent flow and line. It sets sucking back speed and pressure within 20-50% and distance within 2-5cm. TOO long distance make cyclinder reserve air and cause bubbleat next molding.
熔胶过程还有一个比较重要的环节,那就是松退,松退分前松退和后松退,其作用一般是为了防止流涎和抽丝,设定值速度和压力都在20%-50%间,设定的行程一般在2-5cm间,太长的行程可能会使料筒里面贮存空气,导致下一模出现不期望的气泡。
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In plastic step sucking back is very important too. Sucking back include front sucking back and back sucking back It setting sucking back to prevent flow and line. It sets sucking back speed and pressure within 20-50% and distance within 2-5cm. TOO long distance make cyclinder reserve air and causebubble at next molding.
熔胶过程还有一个比较重要的环节,那就是松退,松退分前松退和后松退,其作用一般是为了防止流涎和抽丝,设定值速度和压力都在20%-50%间,设定的行程一般在2-5cm间,太长的行程可能会使料筒里面贮存空气,导致下一模出现不期望的气泡。
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In plastic step sucking back is very important too. Sucking back include front sucking back and back sucking back It setting sucking back to prevent flow and line. It sets sucking back speed and pressure within 20-50% and distance within 2-5cm. TOO long distance make cyclinder reserve air and cause bubble at next molding.
熔胶过程还有一个比较重要的环节,那就是松退,松退分前松退和后松退,其作用一般是为了防止流涎和抽丝,设定值速度和压力都在20%-50%间,设定的行程一般在2-5cm间,太长的行程可能会使料筒里面贮存空气,导致下一模出现不期望的气泡。
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In plastic step sucking back is very important too. Sucking back include front sucking backand back sucking back It setting sucking back to prevent flow and line.It sets sucking back speed and pressure within 20-50% and distance within 2-5cm. TOO long distance make cyclinder reserve air and cause bubble at next molding.
熔胶过程还有一个比较重要的环节,那就是松退,松退分前松退和后松退,其作用一般是为了防止流涎和抽丝,设定值速度和压力都在20%-50%间,设定的行程一般在2-5cm间,太长的行程可能会使料筒里面贮存空气,导致下一模出现不期望的气泡。
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In plastic step sucking back is ery important too. Sucking back include front sucking back and back sucking back It setting sucking back to preent flow and line. It sets sucking back speed and pressure within 20-50% and distance within 2-5cm. TOO long distance make cyclinder resere air and cause bubble at next molding.
熔胶过程还有一个比较重要的环节,那就是松退,松退分前松退和后松退,其作用一般是为了防止流涎和抽丝,设定值速度和压力都在20%-50%间,设定的行程一般在2-5cm间,太长的行程可能会使料筒里面贮存空气,导致下一模出现不期望的气泡。
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The method can calculate the Young's modulus and Poisson's ratio of rock mass which include rock, structure surface and anchor rope.
这种方法可以算出含有节理的岩体的变形模量和泊松比,以及加有锚索后岩体的变形模量和泊松比。
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The finite element method is employed to analyze the shearing stress of the concrete bridge decks with waterproof layer.
应用有限元法,对设防水层的水泥混凝土桥桥面沥青铺装结构进行剪应力计算,分析了防水层的厚度、模量、泊松比、沥青混凝土铺装层厚度和模量等参数对结构层剪应力的影响,认为层间最大剪应力主要取决于面层厚度和防水层模量,相同的防水层模量通过增加面层厚度是降低层间剪应力的最有效手段。
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There were six themes in this study. First of all, the geometry of in-vivo human pinna and ear canal was measured non-invasively. The 3D model of pinna and ear canal was reconstructed and then measured based on the image processed by HRCT. Second, the 2D curvature of in-vivo human ear canal was measured non-invasively. The angles and curvatures of superior and inferior walls of first and second bends were measured. The 2D curvature of ear canal was computed by sine and cosine laws. Third, the in-vivo human ear canal was reconstructed by RE. The distribution of sound field was analyzed by FEM. The data obtained in this study can be the reference for clinicians and audiologists. Fourth, the 3D model of earmold of hearing aids, including the ear shell and the housing, was reconstructed by RE based on the image of in-vivo human ear canal obtained by CT.
本研究主题其四,对於听力受损之患者往往皆须选配助听器帮助其放大声音,其中耳模是助听器的外壳,也是接触到耳朵的仪器,而耳道型助听器系位於耳甲艇及耳甲腔延伸至耳道第一弯道处,在制作耳模必须利用灌模方式来取得紧配之耳模,其中耳模在助听器的使用过程中,常因耳模松脱,无法与人耳道紧密配合而造成漏音,因此,利用活体人外耳道电脑断层影像,重建耳道型助听器耳模之三维立体模型影像,其中耳模包括了耳壳及耳模内部空间,并进行几何外型量测,探讨耳道型助听器之体容积大小,也提供了制作耳模时快速、精确度高、减少翻模及修模次数,可减少误差率之方法。
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The method of defining pedestal pile foundation deformation modulus is especially discussed in this article, and it takes the Mindlin solution as the starting point using mathematics method to get the Poissons ratio which is the factor influencing foundation soil deformation modulus , and a deformation modulus calculating equation is finally determined.
其中特别论述了扩底桩地基变形模量的确定方法,并从Mindlin解出发利用数学方法得出了影响地基土变形模量大小的因素—泊松比μ,初步确定了比较完善的变形模量计算公式。
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As more and more multinational companies set up factories in mainland China or transfer of foreign projects to the domestic processing, metadata such as trade and the United States steel ring Smalley companies, three-song mode Korea SAMSOL spring renowned international brands such as industry set up a strategic alliance substantial reserves in the domestic Corrugated spring, elastic ring, die springs and disc springs and many other brand inventory to meet the emergency needs of users.
随着越来越多的跨国公司在中国大陆开设工厂或转移国外项目到国内加工,元象贸易与美国Smalley钢环公司、韩国SAMSOL三松模簧等行业知名国际品牌建立战略联盟,在国内大量储备波纹弹簧、弹性挡圈、模具弹簧及碟形弹簧等多种品牌库存,满足用户的不时之需。
- 更多网络解释与松模相关的网络解释 [注:此内容来源于网络,仅供参考]
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bulkiness:松厚(性)
bulkmodulus体积模数 | bulkstorage散装贮存 | bulkiness松厚性
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Poisson ratio:泊松比率
LOSS MODULUS 损耗模量 | POISSON RATIO 泊松比率 | RESIDUAL STRESS 残余应力
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Poisson's ratio:泊松比
膜材的拉伸性能包括拉伸强度(Tensionn Strength)、拉伸模量(Modulus of Elasticity)和泊松比(Poisson's Ratio)三个力学指标. 膜材本身不能受压也不能抗弯,但具有很高的拉伸强度,所以要使膜结构正常工作就必须引入预拉力、并形成互反曲面.
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Poisson's ratio:波松比
折合弹性模数与压子和薄膜的弹性模数及波松比(Poisson's ratio)的关系为其中Ef、νf分别为薄膜的弹性模数及波松比,Ei、νi分别为压子的弹性模数及波松比.
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rock Poisson's ratio:岩石的泊松比
矿物的泊松比 mineral Poisson's ratio | 岩石的泊松比 rock Poisson's ratio | 矿物的切变模量 mineral shear modulus
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Poisson's ratio apparratus:泊松比测量仪
泊松模量 Poisson's modulus | 泊松比测量仪 Poisson's ratio apparratus | 泊松波动方程 Poisson's wave equation
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rapping:松模
rapid steel 高速钢 | rapping 松模 | rapping hole 敲模孔
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rapping bar:拍杆,起模棒,敲模棒,松模棒
rapping 振动 | rapping bar 拍杆,起模棒,敲模棒,松模棒 | rapping device 振动装置
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dynamic relaxation method:动力松驰法
蠕变松弛:creep and relaxation | 动力松驰法:dynamic relaxation method | 切变松弛模量:Shear relaxation modulus
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Castilla:一种松蛋糕
castersugar糖粉;细小砂糖 | castilla一种松蛋糕 | casting浇注成型;浇模糖