助手标题  
全文文献 工具书 数字 学术定义 翻译助手 学术趋势 更多
查询帮助
意见反馈
   characteristic wave impedance 的翻译结果: 查询用时:0.183秒
图标索引 在分类学科中查询
所有学科
物理学
材料科学
更多类别查询

图标索引 历史查询
 

characteristic wave impedance
相关语句
  特性波阻抗
     PREPARATION OF W-Mo COMPOSITES AND THEIR <font color=red >CHARACTERISTIC WAVE IMPEDANCE</font> </td></tr> <tr><td class="text11Green">     W-Mo系复合材料的制备及其<font color=red >特性波阻抗</font> </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-GYWL200202007.html" target="_blank" onclick="record('characteristic wave impedance', '双语例句', 'http://xuewen.cnki.net/CJFD-GYWL200202007.html')">短句来源</a></td></tr> <tr><td>     <font color=red >Characteristic Wave Impedance</font> of Mo-Ti Composites </td></tr> <tr><td class="text11Green">     Mo-Ti系复合材料的<font color=red >特性波阻抗</font> </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-WHGY200205000.html" target="_blank" onclick="record('characteristic wave impedance', '双语例句', 'http://xuewen.cnki.net/CJFD-WHGY200205000.html')">短句来源</a></td></tr> <tr><td>     The transverse and longitudinal wave velocities of the samples were accurately measured using ultrasonic pulse echo overlap method, so the <font color=red >characteristic wave impedance</font> values of the samples were then obtained. </td></tr> <tr><td class="text11Green">     采用高精度超声波脉冲回波重合方法,精确测量了超声波在样品中传播的横、纵波声速,并由此得到样品的<font color=red >特性波阻抗</font>值。 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-GYWL200202007.html" target="_blank" onclick="record('characteristic wave impedance', '双语例句', 'http://xuewen.cnki.net/CJFD-GYWL200202007.html')">短句来源</a></td></tr> <tr><td>     Therefore,ideal mixture model was adopted to estimate the <font color=red >characteristic wave impedance</font> of WMo composites. Comparisons with the experimental results demonstrate that the suggested model is sufficiently accurate to predict the wave impedance value of WMo composites.  </td></tr> <tr><td class="text11Green">     因此,选用混合物模型对其<font color=red >特性波阻抗</font>值进行了理论预测,与实测值的比较表明该模型能对W Mo系复合材料的<font color=red >特性波阻抗</font>作出比较准确的预测。 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-GYWL200202007.html" target="_blank" onclick="record('characteristic wave impedance', '双语例句', 'http://xuewen.cnki.net/CJFD-GYWL200202007.html')">短句来源</a></td></tr> <tr><td>     The mixture model was adopted to estimate the <font color=red >characteristic wave impedance</font> of Mo Ti composites in this paper. Comparisons with the experimental results demonstrate that the suggested model is sufficiently accurate to predict the wave impedance value of Mo Ti composites. </td></tr> <tr><td class="text11Green">     选用混合物模型对其<font color=red >特性波阻抗</font>值进行了理论预测 ,与实测值的比较表明该模型能对 Mo- Ti系复合材料的<font color=red >特性波阻抗</font>做出比较准确的预测 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-WHGY200205000.html" target="_blank" onclick="record('characteristic wave impedance', '双语例句', 'http://xuewen.cnki.net/CJFD-WHGY200205000.html')">短句来源</a></td></tr> </TABLE> <TABLE width="100%"><tr><td><IMG id="j_1" style="cursor:pointer" onclick="showjds('showjd_1',this)" src="images/jian.gif" border="0">  <font size="3"><b><a href="javascript:showjdsw('showjd_1','j_1')" >“characteristic wave impedance”译为未确定词的双语例句</a></b></font></td></tr></TABLE> <TABLE width="100%" id="showjd_1"> <tr><td>     In the theory aspect, the thesis gives deductions about wave equation, the characteristic wave vector, the <font color=red >characteristic wave impedance</font> of electromagnetic wave in the chiral material, and that of reflecting propagation coefficient with/without metal-backing, according to Maxwell equations system and the constitutive relations of chiral medium. </td></tr> <tr><td class="text11Green">     理论方面,从Maxwell方程组和手性介质本构关系出发,导出电磁波在手性材料中波动方程、特征波矢、特征波阻抗,以及在有、无金属衬底的反射传播系数; </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CMFD-2007013929.nh.html" target="_blank" onclick="record('characteristic wave impedance', '双语例句', 'http://xuewen.cnki.net/CMFD-2007013929.nh.html')">短句来源</a></td></tr> <tr><td>     The transverse and longitudinal wave velocities of the samples were accurately measured using the ultrasonic pulse echo overlap method, by which the <font color=red >characteristic wave impedance</font> values of the samples were then obtained. </td></tr> <tr><td class="text11Green">     采用高精度超声波脉冲回波重合法 ,精确测量了样品的横、纵波声速 ,并由此计算得到其特性波阻抗的实验值。 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-WHGY200205000.html" target="_blank" onclick="record('characteristic wave impedance', '双语例句', 'http://xuewen.cnki.net/CJFD-WHGY200205000.html')">短句来源</a></td></tr> </TABLE> <TABLE width="100%"><tr><td><IMG id="j_2" style="cursor:pointer" onclick="showjds('showjd_2',this)" src="images/jian.gif" border="0">  <font size="3"><b><a href="javascript:showjdsw('showjd_2','j_2')" >相似匹配句对</a></b></font></td></tr></TABLE> <TABLE width="100%" id="showjd_2"> <tr><td>     <font color=red >Characteristic</font> <font color=red >Wave</font> <font color=red >Impedance</font> of Mo-Ti Composites </td></tr> <tr><td class="text11Green">     Mo-Ti系复合材料的特性波阻抗 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-WHGY200205000.html" target="_blank" onclick="record('characteristic wave impedance', '双语例句', 'http://xuewen.cnki.net/CJFD-WHGY200205000.html')">短句来源</a></td></tr> <tr><td>     Seismic <font color=red >wave</font> <font color=red >imPedance</font> </td></tr> <tr><td class="text11Green">     地震波阻抗反演本身属于多参数的非线性化问题。 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CMFD-2001002347.nh.html" target="_blank" onclick="record('characteristic wave impedance', '双语例句', 'http://xuewen.cnki.net/CMFD-2001002347.nh.html')">短句来源</a></td></tr> <tr><td>     ON THE <font color=red >CHARACTERISTIC</font> <font color=red >WAVE</font> STEEPNESS </td></tr> <tr><td class="text11Green">     海浪的特征波陡 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-HAGC199903001.html" target="_blank" onclick="record('characteristic wave impedance', '双语例句', 'http://xuewen.cnki.net/CJFD-HAGC199903001.html')">短句来源</a></td></tr> <tr><td>     <title>PREPARATION OF W-Mo COMPOSITES AND THEIR <font color=red >CHARACTERISTIC</font> <font color=red >WAVE</font> <font color=red >IMPEDANCE</font> </td></tr> <tr><td class="text11Green">     W-Mo系复合材料的制备及其特性波阻抗 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-GYWL200202007.html" target="_blank" onclick="record('characteristic wave impedance', '双语例句', 'http://xuewen.cnki.net/CJFD-GYWL200202007.html')">短句来源</a></td></tr> <tr><td>     The principal technique of reservoir thickness prediction is <font color=red >wave</font> <font color=red >impedance</font> <font color=red >characteristic</font> analysis. </td></tr> <tr><td class="text11Green">     储层厚度预测的核心技术是波阻抗特征分析技术。 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-TRQG2001S1020.html" target="_blank" onclick="record('characteristic wave impedance', '双语例句', 'http://xuewen.cnki.net/CJFD-TRQG2001S1020.html')">短句来源</a></td></tr> </TABLE> </td></tr><tr><td> <IMG src="images/userdefine.png" border="0"> <font color="blue" size="3"><b>查询“characteristic wave impedance”译词为用户自定义的双语例句<br><br></b></font>    我想查看译文中含有:<input type="text" id="custom" name="custom" onkeydown="if(event.keyCode=='13'){tjCustom('characteristic+wave+impedance');return false;}">的双语例句 <input style="cursor:pointer;" type="button" name="Submit" value="提交" onclick="tjCustom('characteristic+wave+impedance');"></td></tr></TABLE></TD></TR> </TABLE><TABLE class=main-table cellPadding=0 cellSpacing=6 align=center><TR><TD><IMG src="images/dian_ywlj.gif" alt="例句" name=word></TD></TR><TR><TD><font class="text6Green">没有找到相关例句</font></TD></TR></TABLE><TABLE class=main-table cellPadding=0 cellSpacing=6 align=center><TBODY><TR><TD><IMG src="images/04.gif"><BR><BR></TD></TR><TR><TD class="text6"><p class="wz wz-en"> <Abstrcat>Dense WMo composites with different mass fractions of W and Mo were prepared at same temperature (1473K) and pressure (30MPa) by using spark plasma sintering technique. The transverse and longitudinal wave velocities of the samples were accurately measured using ultrasonic pulse echo overlap method, so the <font color=red >characteristic wave impedance</font> values of the samples were then obtained. The results of phase composition and electron probe microscope analysis show that the WMo composite can be treated... </p><p class="wz wz-en-all"><Abstrcat>Dense WMo composites with different mass fractions of W and Mo were prepared at same temperature (1473K) and pressure (30MPa) by using spark plasma sintering technique. The transverse and longitudinal wave velocities of the samples were accurately measured using ultrasonic pulse echo overlap method, so the <font color=red >characteristic wave impedance</font> values of the samples were then obtained. The results of phase composition and electron probe microscope analysis show that the WMo composite can be treated as a mechanical mixture system and high coherence between W and Mo grains is achieved due to sintering additives. Therefore,ideal mixture model was adopted to estimate the <font color=red >characteristic wave impedance</font> of WMo composites. Comparisons with the experimental results demonstrate that the suggested model is sufficiently accurate to predict the <font color=red >wave</font> <font color=red >impedance</font> value of WMo composites.</p></TD></TR><TR><TD class="text6"><p class="wz wz-zh">采用放电等离子烧结技术,在相同的温度(1473K)及压力(30MPa)下,制备出不同配比的致密的W Mo系复合材料样品。采用高精度超声波脉冲回波重合方法,精确测量了超声波在样品中传播的横、纵波声速,并由此得到样品的特性波阻抗值。对样品的相组成分析及电子探针分析的结果表明,W Mo系复合材料主要是以W、Mo机械混合的形式通过粘结相获得致密化的。因此,选用混合物模型对其特性波阻抗值进行了理论预测,与实测值的比较表明该模型能对W Mo系复合材料的特性波阻抗作出比较准确的预测。</p></TD></TR><TR><TD class="text6"><p class="wz wz-en"> Dense Mo Ti composites with different weight fractions of Mo and Ti were prepared at the same temperature (1 473 K) and pressure (30 MPa) by using spark plasma sintering technique. The transverse and longitudinal wave velocities of the samples were accurately measured using the ultrasonic pulse echo overlap method, by which the <font color=red >characteristic wave impedance</font> values of the samples were then obtained. The analyzing results of phase composition and electron probe microscope analysis show that the formation... </p><p class="wz wz-en-all">Dense Mo Ti composites with different weight fractions of Mo and Ti were prepared at the same temperature (1 473 K) and pressure (30 MPa) by using spark plasma sintering technique. The transverse and longitudinal wave velocities of the samples were accurately measured using the ultrasonic pulse echo overlap method, by which the <font color=red >characteristic wave impedance</font> values of the samples were then obtained. The analyzing results of phase composition and electron probe microscope analysis show that the formation of Mo Ti solid solution contributes to the sintering densification of Mo Ti composites. The mixture model was adopted to estimate the <font color=red >characteristic wave impedance</font> of Mo Ti composites in this paper. Comparisons with the experimental results demonstrate that the suggested model is sufficiently accurate to predict the <font color=red >wave</font> <font color=red >impedance</font> value of Mo Ti composites.</p></TD></TR><TR><TD class="text6"><p class="wz wz-zh">采用放电等离子烧结技术 ,在相同的温度 (14 73K)及压力 (30 MPa)下 ,制备出不同配比的致密的 Mo- Ti系复合材料。采用高精度超声波脉冲回波重合法 ,精确测量了样品的横、纵波声速 ,并由此计算得到其特性波阻抗的实验值。对样品的相组成分析及电子探针分析的结果表明 ,Mo- Ti系复合材料是通过 Mo和 Ti之间形成固溶体来实现烧结致密化的。选用混合物模型对其特性波阻抗值进行了理论预测 ,与实测值的比较表明该模型能对 Mo- Ti系复合材料的特性波阻抗做出比较准确的预测</p></TD></TR><TR><TD> <script type="text/javascript">getWzSwitch();</script></TD></TR></TBODY></TABLE><TABLE class=main-table cellPadding=0 cellSpacing=6 align=center><tr><td align=left class=text><img src="images/dot.gif" alt="图标索引" name=dot><strong> 相关查询</strong></td></tr><tr><td><div class="zztj"><ul><li><a href="h_52782185000.html">wave impedance characteristic</a></li><li><a href="h_51621362000.html">guide characteristic wave impedance</a></li><li><a href="h_51027092000.html">wave characteristic</a></li><li><a href="h_50189205000.html">impedance characteristic</a></li><li><a href="h_54189635000.html">characteristic (impedance)</a></li><li><a href="h_50065579000.html">characteristic impedance</a></li><li><a href="h_52277841000.html">characteristic wave</a></li><li><a href="h_50821111000.html">wave impedance</a></li><li><a href="h_54452081000.html">wave propagation characteristic</a></li><li><a href="h_52789079000.html">wave impedance parameter</a></li><li><a href="h_54711958000.html">wave impedance parameters</a></li><li><a href="h_53240805000.html">input impedance characteristic</a></li></ul></div></td></tr></table></span></p> </td> <td width="1%" background="images/lines.gif"> </td> <td valign="top" width="17%"> <table cellSpacing="0" cellPadding="0" width="95%" align="center" bgColor="#ffffff" border="0"> <tr> <td><script src="http://adp.cnki.net/getadinfo.ashx?pc=D0014 " type="text/javascript" ></script><br/></td> </tr> <tr> <td> <script src="http://adp.cnki.net/getadinfo.ashx?pc=D0015" type="text/javascript" ></script><br /> </td> </tr> </table> <table cellspacing="0" cellpadding="0" width="100%" align="center" bgcolor="#ff0000" border="0"> <tr> <td width="100%" height="1"></td> </tr> </table> <table cellspacing="0" cellpadding="0" width="100%" align="center" bgcolor="#ff0000" border="0"> <tr> <td width="100%" height="1"></td> </tr> </table> <table cellSpacing="0" cellPadding="0" width="95%" align="center" bgColor="#ffffff" border="0"> <tr> <td>  </td> </tr> <tr> <td> <a class="text5"><strong>CNKI小工具</strong></a> <br /> </td> </tr> <tr style="height:30"> <td style="color: Blue"> 在英文学术搜索中查有关<a href="http://xueshu.cnki.net/gkp/brief/Default_Result.aspx?code=WWDB&kw=characteristic%20wave%20impedance&korder=0&sel=1&col=" style="color: Red" target="_blank" onclick="record('characteristic%20wave%20impedance', '英文学术搜索', 'http://xueshu.cnki.net/gkp/brief/Default_Result.aspx?code=WWDB&kw=characteristic%20wave%20impedance&korder=0&sel=1&col=')">characteristic wave impedance</a>的内容 </td> </tr> <tr style="height:30"> <td style="color:Blue"> 在知识搜索中查有关<a href="http://search.cnki.net/search.aspx?q=characteristic%20wave%20impedance" style="color:Red" target="_blank" onclick="record('characteristic%20wave%20impedance', '知识搜索', 'http://search.cnki.net/search.aspx?q=characteristic%20wave%20impedance')">characteristic wave impedance</a>的内容 </td> </tr> <tr style="height:30"> <td style="color:Blue"> 在数字搜索中查有关<a href="http://number.cnki.net/show_result.aspx?searchword=characteristic%20wave%20impedance" style="color:Red" target="_blank" onclick="record('characteristic%20wave%20impedance', '数字搜索', 'http://number.cnki.net/show_result.aspx?searchword=characteristic%20wave%20impedance')">characteristic wave impedance</a>的内容 </td> </tr> <tr style="height:30"> <td style="color:Blue"> 在概念知识元中查有关<a href="http://define.cnki.net/WebForms/WebSearchTable.aspx?searchword=characteristic%20wave%20impedance" style="color:Red" target="_blank" onclick="record('characteristic%20wave%20impedance', '概念知识元', 'http://define.cnki.net/WebForms/WebSearchTable.aspx?searchword=characteristic%20wave%20impedance')">characteristic wave impedance</a>的内容 </td> </tr> <tr style="height:30"> <td style="color: Blue"> 在学术趋势中查有关<a href="http://trend.cnki.net/TrendSearch/trendshow.htm?searchword=characteristic%20wave%20impedance" style="color: Red" target="_blank" onclick="record('characteristic%20wave%20impedance', '学术趋势', 'http://trend.cnki.net/TrendSearch/trendshow.htm?searchword=characteristic%20wave%20impedance')">characteristic wave impedance</a>的内容 </td> </tr> <tr> <td>  </td> </tr> </table> <table cellspacing="0" cellpadding="0" width="100%" align="center" bgcolor="#ff0000" border="0"> <tr> <td width="100%" height="1"></td> </tr> </table> <table cellSpacing="0" cellPadding="0" width="95%" align="center" bgColor="#ffffff" border="0"> <tr> <td>  </td> </tr> <tr> <td> <p><span id="lblquestion"></span></p> </td> </tr> </table> </td> </tr> </table> <table cellSpacing="0" cellPadding="0" width="100%" border="0"> <tr> <td height="8"></td> </tr> </table> <table cellSpacing="0" cellPadding="0" width="100%" align="center" bgColor="#3366cc" border="0"> <tr> <td width="100%" height="1"></td> </tr> </table> <table height="20" cellSpacing="0" cellPadding="0" width="100%" align="center" border="0"> <tr> <td></td> </tr> </table> <div style="height:20px;"></div> <table cellspacing="1" cellpadding="2" width="800" align="center" border="0"> <tr height="20"> <td> <table style="cellspacing="1" cellpadding="2" align="center" border="0"> <tr> <td align="center" height="14"> <a class="textlink3" href="http://www.cnki.net/" target="_blank">CNKI主页</a> |  <a class="textlink3" onclick="SetHome(this,'http://dict.cnki.net' ); return false;" href="#">设CNKI翻译助手为主页</a> | <a class="textlink3" onclick="addFavorite('http://dict.cnki.net','CNKI翻译助手——中国知网');return false;" href="#">收藏CNKI翻译助手</a> | <a class="textlink3" href="http://ad.cnki.net" target="_blank">广告服务</a> | <a class="textlink3" href="http://xueshu.cnki.net/" title="全球学术,融汇中西" target="_blank">英文学术搜索</a> </td> </tr> </table> </td> </tr> <tr height="20"> <td class="text" align="center"> <img height="9" alt="版权图标" src="/images/copyright.gif" width="9" name="copyright">  2008 CNKI-中国知网 </td> </tr> <tr height="20"> <td align="center" height="14"> <a class="a04" href="images/zhengshu02.jpg" target="_blank"> <font style="font-size: 8pt" color="#666666">京ICP证040431号</font> </a> <a class="a04" href="images/006.jpg" target="_blank"> <font style="font-size: 8pt" color="#666666">互联网出版许可证 新出网证(京)字008号</font> </a><br /> <font style="font-size: 8pt" color="#666666">北京市公安局海淀分局 备案号:110 1081725</font><br /> <img height="9" alt="版权图标" src="/images/copyright.gif" width="9" name="copyright"> 2008中国知网(cnki) 中国学术期刊(光盘版)电子杂志社 <script src="http://s19.cnzz.com/stat.php?id=3209959&web_id=3209959&show=pic1" language="JavaScript"></script> </td> </tr> </table> </body> </html>