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Ti_3+类文章270篇,页次:1/1页 【 第一页‖ 上一页 ‖ 下一页 ‖ 最后页】 转到
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| 共溅法wo_3:ti薄膜的制备及光学气敏[本文62页] | sm~(3+)掺杂ti/sno_2-sb电极的制备及[本文68页] | al_2o_3陶瓷及ti_3sic_2-ni复合材料的[本文57页] |
| cosb_3/ti界面原子扩散的分子动力学模[本文54页] | y_2o_3:eu~(3+)和y_2o_2s:eu(3+),m[本文56页] | 一维y_2o_2s:eu~(3+),mg~(2+),ti~([本文63页] |
| 一维红色长余辉发光材料y_2o_2s:eu~([本文55页] | (ti,m)_2alc/al_2o_3复合材料的合[本文59页] | (k,na,li,bi)(nb,ti)o_3压电[本文68页] |
| mzr_(0.5)ti_(0.5)o_3(m=la,nd,ce[本文61页] | (bi,ca)(fe,ti)o_3与ca(ti,m[本文76页] | ti-15-3合金高温本构模型的建立及在模[本文60页] |
| 外延pb(zr_(0.52)ti_(0.48))o_[本文97页] | chm法制备纳米钙钛矿型abo_3(a=ba,[本文60页] | 红色长余辉发光材料y_2o_3: eu~(3+[本文72页] |
| ei~(3+)掺杂ato纳米粉体和eu~(3+)掺杂[本文70页] | ti-v基固溶体合金/ab_x(x=3,3.5,5[本文74页] | ti掺杂wo_3薄膜的制备及气敏性能研究[本文59页] |
| 纳米ti:wo_3薄膜的制备及光学气敏性能[本文54页] | lifepo_4/li_(1.3)al_(0.3)ti_([本文88页] | ti~(4+)和eu~(3+)单掺杂与共掺杂[本文70页] |
| ti-al缓冲层对pb(zr,ti)o_3异质结[本文55页] | pb(zr,ti)o_3铁电电容器结构与性能[本文60页] | pbzr_(0.4)ti_(0.6)o_3铁电电容器[本文60页] |
| ag-ti合金电极与lsmo功能层对metal/p[本文59页] | 铁电bifeo_3与pb(zr_(0.52)ti_(0[本文71页] | bifeo_3/bi_(3.25)la_(0.75)ti_3o_(1[本文48页] |
| pbnb_x(zr_(0.2)ti_(0.8))o_3/bifeo_[本文84页] | pb(zr_(0.2)ti_(0.8))o_3与pb(z[本文63页] | 取向pb(zr_(1-x)ti_x)o_3和bifeo_3薄[本文138页] |
| ti-15-3合金冷变形纳米组织形成和演变[本文98页] | 择优取向pb(zr_(0.95)ti_(0.05)[本文87页] | y掺杂对ba(sn_(0.1)ti_(0.9))o[本文52页] |
| bi对ba(ti_(0.9)sn_(0.1))o_3陶[本文64页] | li_(3-2x)(m_(1-x)ti_x)_2(po[本文78页] | ti:linbo_3波导光开关研究[本文80页] |
| (ca,nd)tio_3/(li,nd)tio_3与b[本文141页] | na(ta,nb)o_3和[(k_(0.5)na_([本文74页] | 增塑剂在peo(liclo_4)-li_(1.3)a[本文66页] |
| ba_4(nd_(0.85)bi_(0.15))_(2[本文77页] | li_(1.3)al_(0.3)ti_(1.7)(po[本文131页] | er~(3+)(/yb~(3+)):linbo_3[本文62页] |
| 锂—钛同时内扩散制备近化学计量比ti[本文70页] | ni/ti/batio_3基复合ptc陶瓷材料的研[本文80页] | al_2o_3/ti(c,n)基和si_3n_4基陶瓷[本文78页] |
| al_2o_3/ti基网状复合生物材料的制备[本文70页] | vte技术制备的近化学计量比ti:linbo[本文65页] | li_(1.3)ti_(1.7)al_(0.3)(po[本文75页] |
| 基于ti扩散linbo_3晶体光波导的长周期[本文65页] | 柠檬酸盐法制备ba_(0.95)ca_(0.05)zr[本文56页] | ti_4aln_3放电等离子制备与性能研究[本文71页] |
| ba_(1-x)sr_xzr_(0.2)ti_(0.8)o_3体系[本文48页] | 宽温高稳定性batio_3-bi (mg_(1/2)ti[本文71页] | nb对ti/al_2o_3复合材料结构控制与性[本文84页] |
| 热压合成ti_4aln_3及其性能研究[本文66页] | 原位合成ti_3alc_2/al_2o_3复合材料及[本文66页] | ti/sno_2-sb_2o_3-ceo_2电极材料的制[本文65页] |
| 以ti_2o_3为膜料反应蒸发制备tio_2光[本文70页] | xsrtio_3-(1-x)la(mg_(0.5)ti_([本文63页] | 热压ti_3sic_2/al_2o_3复合材料的制备[本文68页] |
| pb(zr_(0.30)ti_(0.70))o_3铁电[本文66页] | hddr及hd处理对sm_3(fe,m)_(29)[本文71页] | sm_3(fe,ti)_(29)n_x/α-fe双相纳[本文75页] |
| lacr_(1-x)ti_xo_3复合氧化物的合成及[本文60页] | 硅基取向性pbzr_(0.52)ti_(0.48)[本文66页] | 原位反应合成al_2o_(3(p、w))/ti[本文162页] |
| ti-15-3合金织构形成规律及对弹性各向[本文73页] | 溶胶—凝胶法在al_2o_3表面形成cu-ti[本文67页] | 搅拌摩擦加工制备al_2o_3、ti颗粒增强[本文66页] |
| ndb_6合成及多元(tib+tic+nd_2o_3)[本文71页] | sic/ti-15-3中相邻纤维界面热残余应力[本文72页] | 用显微云纹干涉法研究sic/ti-15-3界面[本文66页] |
| 静电纺丝技术制备la_2m_2o_7(m=ti,[本文88页] | m:al_2o_3(m=cr,ti)纳米粉体及透明陶[本文125页] | pbtio_3与pbzr_(1-x)ti_xo_3块体及薄[本文55页] |
| bifeo_3/bi_(3.25)la_(0.75)ti_3[本文59页] | fe-cr-w-ti-y_2o_3粉末铁基高温合金的[本文69页] | ma法制备fe-cr-w-ti-y_2o_3粉末工艺及[本文69页] |
| 固体氧化物燃料电池负极材料sr_(n+1)[本文54页] | ti/sno_2+sb_2o_3电极的制备及其在模[本文74页] | ti/sno_2+sb_2o_3/ruo_2+pbo_2电极的[本文57页] |
| pt/pb(zr_(0.20)ti_(0.80))o_3[本文55页] | 氩弧熔覆制备ti基ti_5si_3表面层耐热[本文62页] | ti填充型和te置换型cosb_3方钴矿热电[本文77页] |
| 第三组元掺杂下ti_5si_3弹性性质和电[本文73页] | ni掺杂下ti_5si_3的燃烧合成反应路径[本文96页] | shs法制备镍基和铜基ti_5si_3表面层[本文69页] |
| 氩弧熔覆制备ti基ti_5si_3表面层组织[本文62页] | la_(0.9)ba_(0.1)mno_(3-δ)薄[本文46页] | 新型特效钠离子吸附剂li_(1+x)m_xn[本文128页] |
| 微合金化和复合化对纳米晶ti_5si_3涂[本文94页] | ti-15-3的两段超塑性行为研究[本文59页] | pb(zr_(0.95)ti_(0.05))o_3薄膜[本文42页] |
| cu、ti包覆纳米si_3n_4粉末的制备及t[本文74页] | ti-6al-4v与qal10-3-1.5扩散连接工艺[本文82页] | ti-6al-4v/qal10-3-1.5异种材料扩散连[本文157页] |
| pb(zr_(0.94)ti_(0.06))o_3薄膜[本文55页] | bi_(3.15)nd_(0.85)ti_3o_(12)-cofe_[本文60页] | ti:al_2o_3激光用于结肠癌诊断的研究[本文55页] |
| 锂离子电池材料limn_2o_4及li_(1.3)[本文143页] | zn_(0.98)co_(0.02)o/pbzr_(0.52)ti_[本文58页] | [xw_5o_(18)]~(3-)(x=zr或ti)衍[本文49页] |
| 氨化si基ga_2o_3/ti和ga_2o_3/tio_2薄[本文71页] | 高介ba (ti_(0.86)zr(0.14)) o_3基y5[本文61页] | ti_3al/tic+al_2o_3多元复合材料的制[本文111页] |
| ti粉对al_2o_3-c材料物理性能及抗氧化[本文60页] | pb(zr_(0.52)ti_(0.48))o_3铁电[本文69页] | pb(zr_(0.52)ti_(0.48))o_3/ni[本文71页] |
| ho掺杂ba(zr_(0.2)ti_(0.8))o_3介质薄[本文75页] | ba(zr_(0.2)ti_(0.8))o_3介质薄[本文78页] | pb(zr,ti)o_3铁电薄膜的制备、性能[本文81页] |
| 3d~1(ti~(3+)、v~(4+))离子[本文48页] | ba(ti_(0.9)zr_(0.1))o_3基陶瓷介电[本文80页] | 非对称电极y分叉型1×2 ti:linbo_3数[本文91页] |
| pb(zr_(0.96)ti_(0.03))nb_(0[本文80页] | li_(1.3)al_(0.3)ti_(1.7)(po[本文69页] | 钙钛矿结构(la,ca)(mn,ti)o_3材[本文79页] |
| 联烯溴与1,3-二羰基化合物的反应研究[本文119页] | ti与tial_3反应烧结制备γ-tial基合金[本文68页] | 机械活化纳米ti-47al-xal_2o_3-ycr粉[本文65页] |
| 机械活化原位烧结制备ti-al-al_2o_3纳[本文125页] | m_(1-x)d_xp_2o_7(m=sn~(4+),ti~(4+)[本文79页] | al掺杂对li_(1+x)ti_(2-x)al_x(po_4)[本文78页] |
| (ti_(5-x)mg_x)si_3和ti_5x_3(x=s[本文61页] | al_2o_3/ti_3sic_2复合材料的制备、结[本文66页] | ag-ti合金电极与lsmo功能层对metal/p[本文59页] |
| 原位合成ti_5si_3基复合材料及其性能[本文66页] | li_(1.3)ti_(1.7)al_(0.3)(po[本文75页] | ti掺杂wo_3薄膜的制备及气敏性能研究[本文59页] |
| (pb,la)(zr,ti)o_3铁电阵列的制[本文63页] | ti/sno_2+sb_2o_3电极优化及电解氧化[本文85页] | pb(zr,sn,ti)o_3基反铁电陶瓷场致[本文151页] |
| 变形量对(tib+la_2o_3)/ti复合材料[本文140页] | (ba_(1-x)r_x)(ti_(1-y)mn_y)o_3[本文63页] | (ba,ca)(ti,zr)o_3无铅压电陶瓷[本文75页] |
| srtio_3缓冲层对bi_(3.15)nd_(0.85)t[本文61页] | tial_3/ti_3alc_2/al_2o_3复合材料制[本文128页] | 低维y_2o_2s:eu~(3+),mg~(2+),ti~[本文65页] |
| 掺杂型钙钛矿srmo_3(m=ru,ti)结构[本文52页] | al_2o_3陶瓷/ti场助扩散连接工艺及机[本文85页] | eu~(3+)掺杂锡锑中间层ti/pbo_2电极[本文58页] |
| (ba_(0.85)ca_(0.15))(zr_(0.1)ti[本文82页] | li_(1.3)al_(0.3)ti_(1.7)(po_4)_3固[本文84页] | xpb(ni_(1/3)nb_(2/3))o_3-(1-x)pb(t[本文63页] |
| ti_3alc_2及nb_4alc_3电化学腐蚀性能[本文68页] | ag/ti/bifeo_3/pr_(0.7)ca_(0.3)mno_[本文58页] | 反应球磨法制备ti(c,n)/al_2o_3复[本文66页] |
| 基于热压烧结的ti/al_2o_3复合材料制[本文84页] | 等离子熔敷ti_5si_3增强金属间化合物[本文61页] | 新型al_2o_3/ti(cn)复合陶瓷刀具铣削[本文83页] |
| 低温水热合成pb(zr_(0.52)ti_(0.48))[本文51页] | cu-ti-si体系自蔓延高温合成ti_5si_3[本文75页] | ti_3alc_2-la_2o_3/cu复合材料的制备[本文87页] |
| ti_2aln-la_2o_3/cu复合材料的制备及[本文66页] | bazr_(0.2)ti_(0.8)o_3粉体及陶瓷的制[本文81页] | ti~(3+)自掺杂纳米tio_2的制备及其可[本文72页] |
| ti、nb、zr元素掺杂对ca(bh_4)_2·2n[本文73页] | (ti,mo)_2alc/al_2o_3复合材料的原位[本文68页] | 抗光折变局域掺杂ti:mg:er:linbo_[本文131页] |
| y_2o_3对ti/al_2o_3复合材料结构与性[本文71页] | nb合金化对纳米晶ti_5si_3性能影响的[本文89页] | ti_2alnbo相合金表面al/al_2o_3热防护[本文80页] |
| y_2o_2s:eu~(3+),mg~(2+),ti~(4+)一维[本文50页] | (ba_(0.85)ca_(0.15))(ti_(0.9)zr_(0[本文71页] | (ba_(0.85)ca_(0.15))(zr_(0.1)ti_(0[本文66页] |
| cu-ti系活性钎料钎焊高纯al_2o_3陶瓷[本文71页] | ticl_4-ch_3sicl_3-h_2-ar体系下cvd法[本文85页] | y_2o_2s:eu~(3+),mg~(2+),ti~(4+)红色[本文48页] |
| 射频磁控溅射法制备al_2o_3、ti-al-o[本文69页] | pb(zr,ti)o_3-cofe_o_4纳米复合薄膜的[本文74页] | pb_(0.96)la_(0.04)(zr_(0.55)ti_(0.[本文70页] |
| 基于钛扩散铌酸锂(ti:linbo_3)光波[本文69页] | 准连续网状ti_5si_3/tial复合材料制备[本文86页] | ti/sno_2-sb_2o_3/α-pbo_2/β-pbo_2[本文58页] |
| mn-ce-ti催化剂上nh_3选择性催化还原[本文78页] | (ba_(1-x)r_x)(ti_(1-x)yb_x)o_3(r=l[本文75页] | 白色长余辉发光材料y_2o_2s:tb~(3+),[本文66页] |
| y_2o_2s:dy~(3+),mg~(2+),ti~(4+)白色[本文65页] | (ba,ca)(ti,sn)o_3无铅压电陶瓷的低温[本文134页] | al_2o_3/ti(cn)复合陶瓷刀具铣削性能[本文73页] |
| ba(zr,ti)o_3基无铅压电陶瓷材料的改[本文67页] | ni取代的li_2mo_3(m=ti,mn)锂离子正极[本文70页] | 冷拉拔ti_(50)ni_(47)fe_3形状记忆合[本文71页] |
| 水热法制备ti摻杂w0_3纳米晶粒及应用[本文62页] | ti_3alc_2/tial_3复合材料的制备及其[本文83页] | 交变电场辅助al_2o_3陶瓷/ti扩散连接[本文92页] |
| 基于ti-(al-si)体系ti_5si_3/tial复合[本文78页] | tm~(3+)离子掺杂的y_2m_2o_7(m=ti~([本文70页] | pb(mg_(1/3)nb_(2/3))_(0.72)ti_(0[本文98页] |
| (pb,la)(zr,sn,ti)o_3陶瓷的电性能及[本文77页] | 耐热钛基复合材料(tib+la_2o_3)/ti[本文88页] | nd_2fe_(14)b/fe_3p双相合金和nd_(3-[本文63页] |
| la_2o_3-sicw-ti(c,n)-co少粘结相金属[本文72页] | pb(zr_(0.52)ti_(0.48))o_3铁电薄膜的[本文66页] | 高能球磨冷压烧结制备ti-8si-xzr-yy_[本文93页] |
| 固体电解质li_(1.4)al_(0.4)ti_(1.6)[本文58页] | ce-ti-w-o_x体系催化剂的制备及其nh_[本文69页] | al_2o_3-ti(c,n)复合金属陶瓷模具材料[本文72页] |
| ti-48al-6nb多孔合金及表面γ-al_2o_[本文126页] | al_2o_3掺杂ca-ce-ti-w-o系高温ntc热[本文58页] | 酸性条件下ti-mcm-41/h_2o_2/o_3体系[本文85页] |
| (ba,ca)(zr,ti)o_3与(k,na)nbo_3基无[本文118页] | ceo_2掺杂ti/al_2o_3复合材料的制备及[本文91页] | 组分梯度pb(zr_(1-x)ti_x)o_3(pzt)[本文58页] |
| 锂离子固体电解质li_(1.3)al_(0.3)ti[本文60页] | lanio_3电极与bi_(3.15)nd_(0.85)ti_[本文78页] | 气相中[vo_3]~-催化ch_3oh与o_2反应以[本文70页] |
| 稀土—过渡族金属间化合物nd_(3-y)pr[本文48页] | ti(c,n)-al_2o_3陶瓷基复合材料焊接技[本文92页] | 基于单一组份nano_3电解液的ti-6al-4[本文72页] |
| pb(zr,ti)o_3膜-cofe_2o_4陶瓷磁电复[本文77页] | 基于热压烧结的ti/al_2o_3界面反应机[本文75页] | 脉冲激光沉积法制备basn_(0.15)ti_(0[本文87页] |
| 助烧剂对(ba_(0.85)ca_(0.15))(zr_(0[本文84页] | 多元金属对al_2o_3-ti(c,n)组织形成及[本文90页] | 溶胶—凝胶法制备(ba_(0.85)ca_(0.15[本文110页] |
| (pb_(0.985-x)bi_(2x/3)la_(0.01))[本文61页] | (na_(0.4)bi_(0.5)k_(0.1))ti_(1-x)m[本文75页] | la_(2/3)ca_(1/3)mno_3/caru_(1-x)ti[本文117页] |
| 金属及稀土氧化物掺杂ti/al_2o_3复合[本文139页] | (ba_(1-x)la_x)(ti_(1-x)lu_x)o_3陶瓷[本文74页] | cu掺杂mgh_2与ti/v_(li)修饰libh_4及[本文140页] |
| (ti,v)_3alc_2/al_2o_3复合材料的制备[本文71页] | bi_(0.5)na_(0.5)tio_3-ba_(0.85)ca_[本文72页] | 原位自生(tic+ti_5si_3)/ti复合材料的[本文86页] |
| ta_2o_5对ti/al_2o_3复合材料的制备和[本文75页] | ti修饰al_2o_3负载聚苯乙烯磺酸型树脂[本文71页] | ta_2o_5-wo_3-r_xo_y(r=si、ti、zr、[本文90页] |
| 阴极材料srco_(0.8)ti_(0.2-x)nb_xo_[本文53页] | tio_2微球、g-c_3n_4/ti~(3+)-tio_2复[本文85页] | ti基氧化物催化剂的制备、表征及对nh[本文143页] |
| ti(c,n)-al_2o_3陶瓷基复合材料焊接界[本文93页] | bi_(n+1)fe_(n-3)ti_3o_(3n+3)体系交[本文133页] | (ba,ca)(ti,zr,sn)o_3无铅压电陶瓷的[本文65页] |
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| ca_3(ti_(1-x)mn_x)_2o_7混合型非常规[本文80页] | 应用pr_(0.3)sr_(0.7)ti_(0.3)fe_(0.[本文128页] | 外延pb(zr_(0.4)ti_(0.6))o_3和bife_[本文67页] |
| pbzr_(0.52)ti_(0.48)o_3柔性压电传感[本文54页] | bafe_(1-x)ti_xo_3钙钛矿型nsr催化[本文74页] | ba(ti,zr,sn)o_3基自然极性陶瓷的[本文80页] |
| tic在al-ti-al_4c_3熔体中反应合成及[本文79页] | xpb(ni_(1/3)nb_(2/3))o_3-(1-x)pb(h[本文58页] | nb丝增韧tial/ti_5si_3复合材料铸造成[本文74页] |
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