Preparation,Characterization and Photothermal Study of PVA/Ti_(2)O_(3) Composite Films

In this work,flexible photothermal PVA/Ti_(2)O_(3) composite films with different amount(0 wt%,5 wt%,10 wt%,15 wt%)of Ti_(2)O_(3) particles modified by steric acid were prepared by a simple solution casting method.The microstructures,XRD patterns,FTIR spectra,UV-Vis-NIR spectra thermo-conductivity,thermo-stability and photothermal effects of these composite films were all characterized.These results indicated that Ti_(2)O_(3) particles were well dispersed throughout the polyvinyl alcohol(PVA)matrix in the PVA/Ti_(2)O_(3) composite films.And Ti_(2)O_(3) particles could also effectively improve the photothermal properties of the composite films which exhibited high light absorption and generated a high temperature(about 57.4℃for film with 15 wt%Ti_(2)O_(3) amount)on the surface when it was irradiated by a simulated sunlight source(1 kW/m^(2)).

Cr_(2)O_(3)添加量对SrAl_(12)O_(19)-Al_(2)O_(3)-ZrO_(2)复相陶瓷力学性能和微观结构影响

以3Y-TZP、α-Al_(2)O_(3)、Sr(NO3)2为基础原料,掺杂了不同含量的Cr(NO_(3))_(3)·9H_(2)O,通过无压预烧和热等静压烧结结合的方式制备了SrO和Cr_(2)O_(3)共掺杂的ZTA复相陶瓷。研究了Cr_(2)O_(3)添加量对SrAl_(12)O_(19)-Al_(2)O_(3)-ZrO_(2)复相陶瓷微观结构和力学性能的影响。XRD衍射谱显示,随着Cr_(2)O_(3)添加量的增多,α-Al_(2)O_(3)和SrAl_(12)O_(19)的衍射峰向左偏移,晶胞参数逐渐增大。结合EDS分析推测,Cr_(2)O_(3)更偏向于进入SrAl_(12)O_(19)的晶格。微观结构显示,Cr_(2)O_(3)的加入促进了晶粒生长。随着Cr_(2)O_(3)添加量的增多,断裂韧性和抗弯强度先上升后下降。当Cr_(2)O_(3)掺杂量为0.50 wt.%时力学性能最佳,其显微硬度、断裂韧性和抗弯强度分别为18.45 GPa、6.9 MPa·m^(1/2)和910 MPa。

纳米Cr_(2)O_(3)对铝合金微弧氧化膜组织和性能的影响

在恒流模式下对7050铝合金开展微弧氧化试验。用SEM、EDS、XRD、膜层测厚仪、维氏硬度计、电化学工作站和磨损试验机等研究了不同纳米Cr_(2)O_(3)含量对7050铝合金微弧氧化陶瓷膜组织和性能的影响。结果表明:添加纳米Cr_(2)O_(3)能减小陶瓷膜孔径,提升致密度,优化陶瓷膜结构;当纳米Cr_(2)O_(3)由1 g/L增至5 g/L时,陶瓷膜的厚度、硬度均先增后减;与未添加相比,添加纳米Cr_(2)O_(3)的陶瓷膜的耐蚀性和耐磨性均明显提升;陶瓷膜主要由γ-Al_(2)O_(3)相和少量的α-Al_(2)O_(3)相、莫来石相、Cr_(2)O_(3)相构成;总体来看,当纳米Cr_(2)O_(3)为3 g/L时,陶瓷膜的性能最优,厚度、显微硬度、自腐蚀电流和磨耗比分别为30.98μm、1273HV0.1、5.162×10^(-8)A/cm^(2)、0.0913%。

等离子喷涂Cr_(2)O_(3)/8YSZ复合涂层微观组织及抗热冲击性能研究

为了探究Cr_(2)O_(3)/8YSZ复合涂层高温性能,利用等离子喷涂技术在Q235钢表面制备了4种不同混合比例的Cr_(2)O_(3)/8YSZ复合涂层(8YSZ含量分别为50%,30%,20%,0%)。通过热场发射扫描电镜对涂层的形貌进行SEM表征并对涂层的截面元素分布进行EDS线扫,采用X射线衍射仪分析复合涂层的物相组成,利用表面轮廓仪测量了复合涂层的表面粗糙度,使用全自动显微维氏硬度计对涂层的显微硬度进行测量,采用划痕仪对涂层的抗划伤性能进行对比,利用Gleeble-3800热物理实验模拟机对涂层的抗热冲击性能进行测试,并对热冲击之后的截面形貌进行观察分析。结果表明,当Cr_(2)O_(3)与8YSZ比例为7∶3时,由于8YSZ对垂直裂纹的偏转作用以及涂层内部存在的孔隙和裂纹对热应力的释放作用,该样本涂层具有较好的抗热冲击性能。

Al_(2)O_(3)-Ce_(2)O_(3)复合薄膜对304不锈钢抗高温氧化性能的影响

为提高304不锈钢的抗高温氧化性能,采用溶胶-凝胶法以异丙醇铝和CeCl_3·7H_(2)O为原料,在304不锈钢表面分别制备了Al_(2)O_(3)薄膜和Al_(2)O_(3)-Ce_(2)O_(3)复合薄膜,通过氧化动力学曲线、XRD、SEM和EDS分析,研究了不同Ce/Al比例(摩尔比,下同)的Al_(2)O_(3)-Ce_(2)O_(3)复合薄膜对304不锈钢900℃抗高温氧化性能的影响。结果表明,涂覆Ce∶Al=1∶10的薄膜试样在900℃循环氧化100 h后的氧化增重与氧化剥落量仅为未涂覆试样的34.1%和51.8%,抗高温氧化性能最佳。Al_(2)O_(3)-Ce_(2)O_(3)复合薄膜降低了304不锈钢基体表面的氧分压,有利于生成保护性的Cr_2O_(3)氧化层,有效抑制了Cr_2O_(3)的挥发;添加Ce_(2)O_(3)降低了氧化层中的热应力,提高了其附着力;Ce_(2)O_(3)起到了活性元素效应,改变了氧化膜的生长机制,因此显著提高了不锈钢的抗高温氧化性能。

Al掺杂对β-Ga_(2)O_(3)薄膜光学性质的影响研究

近年来,半导体器件向着高散热性、高击穿场强和低能耗的方向发展,因此超宽禁带半导体材料β-Ga_(2)O_(3)具有广阔的应用前景,而有效掺杂是实现β-Ga_(2)O_(3)器件的基础。实验采用磁控溅射法制备Ga_(2)O_(3)/Al/Ga_(2)O_(3)/Al/Ga_(2)O_(3)复合结构,经高温退火使Al原子热扩散进入薄膜中,形成Al掺杂的β-Ga_(2)O_(3)薄膜。采用激光区熔法使薄膜区域熔化再结晶,进一步提升掺杂质量。对Al掺杂β-Ga_(2)O_(3)薄膜的晶体性质、杂质含量及光学性质进行了测试表征。结果表明:Al掺杂不改变β-Ga_(2)O_(3)薄膜的晶体结构;随着Al层溅射时间延长,掺杂含量逐渐增加;当Al溅射时间为5和10 s时,薄膜紫外吸收率分别为40%和50%;随着Al溅射时间的增加,Al掺杂β-Ga_(2)O_(3)薄膜紫外区域光吸收率逐渐增强,Al溅射时间为300 s时,β-Ga_(2)O_(3)薄膜的光吸收率接近90%;低浓度的Al掺杂会导致β-Ga_(2)O_(3)薄膜的禁带宽度变窄。

Al_(2)O_(3)膜对高温环境下NiCrAlY-SiC复合镀层内部反应的阻隔及涂层耐磨性研究

为了解决以SiC颗粒为磨料的叶尖耐磨复合镀层在高温工况下SiC与涂层中Ni元素反应导致涂层耐磨性下降等问题,采用化学气相沉积(chemicalvapor deposition,CVD)工艺方法在SiC颗粒表面制备了Al_(2)O_(3)膜以阻隔SiC与涂层中Ni元素的反应。研究了0.5~1.0μm和5.0~10.0μm这2种厚度范围的Al_(2)O_(3)膜对NiCrAlY-SiC@Al_(2)O_(3)叶尖耐磨镀层中SiC颗粒与NiCrAlY镀层在1100℃高温环境下反应的阻隔效果,并测试了2种Al_(2)O_(3)膜厚度的NiCrAlY-SiC@Al_(2)O_(3)叶尖耐磨镀层在1100℃高温环境下保温500 h后的耐磨性。结果显示,5.0~10.0μm厚度的Al_(2)O_(3)膜可有效阻隔SiC颗粒与NiCrAlY镀层的高温反应,使NiCrAlY-SiC@Al_(2)O_(3)涂层在1100℃高温环境下保持良好的耐磨性,并与ZrO2陶瓷封严涂层形成良好的对磨匹配效果。

Cr_(2)O_(3)-Al_(2)O_(3)复合薄膜对304不锈钢抗高温氧化性能的影响

电沉积-热解法沉积氧化物薄膜是提高材料抗高温氧化性能的重要途径。采用电沉积-热解法在304不锈钢表面制备了Cr_(2)O3-Al_(2)O_(3)单一薄膜和复合薄膜,研究了单一薄膜和不同沉积液浓度制备的复合薄膜在900℃下的高温循环氧化行为。氧化动力学曲线、SEM形貌及XRD分析结果表明:电沉积-热解沉积薄膜明显提高了304不锈钢的抗高温氧化性能。Cr(NO3)3与Al(NO3)3酒精溶液摩尔浓度比为2∶1制备的Cr_(2)O3-Al_(2)O_(3)复合薄膜经高温氧化后表面生成了保护性的Cr1.3Fe0.7O3和NiCr_(2)O_(4) 氧化层,其氧化增重和氧化膜剥落量分别是未沉积试样的27.3%和17.6%,抗高温氧化性能最佳。复合薄膜降低了合金表面的氧分压,有利于形成保护性的选择性氧化膜,Cr_(2)O3和Al_(2)O_(3)均具有优异的抗氧化性能,而且Al_(2)O_(3)降低了高温下Cr_(2)O3的挥发,因此显著提高了试样的抗高温氧化性能。

氧化物反铁磁Cr_(2)O_(3)薄膜的研究进展

氧化物反铁磁Cr_(2)O_(3)薄膜在自旋电子学器件中有着广泛的应用。重点论述了反铁磁Cr_(2)O_(3)的早期基础性研究,以及反铁磁Cr_(2)O_(3)薄膜在交换偏置和磁电效应方面的研究进展。最后指出了氧化物反铁磁Cr_(2)O_(3)薄膜研究中存在的部分问题,并展望了它的发展前景。

Cr_(2)O_(3)对Al_(2)O_(3)-Cr_(2)O_(3)涂层干滑动摩擦磨损行为的影响

Cr_(2)O_(3)对Al_(2)O_(3)-Cr_(2)O_(3)复合涂层与高硬度陶瓷接触时的摩擦磨损行为及磨损机制的影响尚未揭示。采用大气等离子喷涂的方法制备Cr_(2)O_(3)含量不同的Al_(2)O_(3)-Cr_(2)O_(3)复合涂层以研究Cr_(2)O_(3)的影响机制。试验结果表明:Cr_(2)O_(3)明显减少了涂层的微观孔隙;复合涂层中α-Al_(2)O_(3)/γ-Al_(2)O_(3)的相对含量比明显高于Al_(2)O_(3)涂层中的37%;Al_(2)O_(3)-40%Cr_(2)O_(3)涂层的硬度与Al_(2)O_(3)涂层相比提高了48%,断裂韧性是Al_(2)O_(3)涂层的2倍多;当载荷为5 N、10 N和15 N时,Al_(2)O_(3)-40%Cr_(2)O_(3)复合涂层的摩擦因数最低,磨损率依次降低60%、85%和79%。但是当载荷为20 N时,Al_(2)O_(3)-20%Cr_(2)O_(3)复合涂层的摩擦因数最低,磨损率降低了50%。微观脆性断裂是涂层的主要磨损机制。复合涂层耐滑动磨损性能与Cr_(2)O_(3)含量及磨损条件是密切相关的。微观结构、硬度、断裂韧性、导热系数等是影响Al_(2)O_(3)-Cr_(2)O_(3)复合涂层耐磨损性能的重要因素。研究结果可为高耐磨性Al_(2)O_(3)基涂层的设计和应用提供指导。

两种衬底上Cr_(2)O_(3)薄膜的制备与显微结构表征

本文利用脉冲激光沉积(PLD)技术分别在MgO(100)和Al_(2)O_(3)(0001)两种衬底上制备了Cr_(2)O_(3)薄膜,并借助X射线衍射仪和透射电子显微镜对两种薄膜的显微结构进行了表征。研究结果表明:由于MgO与Cr_(2)O_(3)的晶体结构不同,界面存在较大的晶格失配,MgO(100)衬底上制备的薄膜为低质量的Cr_(2)O_(3)多晶薄膜。薄膜致密度低,孔隙多,晶粒排列呈现纵横交织(90°取向差)的特征。由于Al_(2)O_(3)与Cr_(2)O_(3)具有相同的晶体结构,界面失配小,Al_(2)O_(3)(0001)衬底上的薄膜为高质量的Cr_(2)O_(3)单晶外延薄膜。薄膜均匀致密,外延性好,界面平整明锐,薄膜中形成了大量的贯穿位错线。

元素扩散对Cr_(2)O_(3)陶瓷薄膜结构和摩擦学性能的影响

目的通过高温热处理,不同基材会发生不同的组织演变,研究了组织演变对基材中金属元素高温扩散的影响,从而判断其对多弧离子镀制备Cr_(2)O_(3) 陶瓷薄膜形貌、结构以及摩擦学性能的影响。方法利用多弧离子镀技术在不同基材表面(Inconel 718合金、IC10合金、45钢、316不锈钢)沉积Cr_(2)O_(3) 薄膜。使用扫描电子显微镜(SEM)和冷场发射扫描电镜(FESEM)分析了基材和薄膜高温退火前后的表面形貌,并且利用EDS分析了基材和薄膜表面的元素含量变化。采用X射线衍射仪(XRD)对Cr_(2)O_(3) 薄膜进行物相分析,使用往复摩擦磨损试验仪、三维轮廓仪以及扫描电子显微镜分析了基材和薄膜退火前后的摩擦学性能。结果热处理后基材中的元素会扩散到其表面,Inconel 718合金、IC10合金和45钢热处理后,其摩擦因数降低。在Inconel 718合金和316不锈钢表面沉积的Cr_(2)O_(3) 薄膜高温退火后,基材中的金属元素沿着Cr_(2)O_(3) 薄膜晶界扩散至薄膜表面,并与大气中的O_(2)反应形成三元氧化物。Cr_(2)O_(3) 薄膜经1000℃退火后,Inconel 718合金中的Ti元素扩散至Cr_(2)O_(3) 薄膜表面形成类网状凸起结构,且薄膜表面形成CrTiO_(3)和Cr_(2)O_(3) 混合相,316不锈钢中的Mn元素扩散至Cr_(2)O_(3) 薄膜表面形成尖晶石结构的MnCr_(2)O_(4)相,45钢表面上沉积的Cr_(2)O_(3) 薄膜在850℃退火后薄膜表面形成以Fe元素为主的大颗粒,薄膜表面物相为Fe_(2)O_(3)和Cr_(2)O_(3) 混合相,IC10合金表面上沉积的Cr_(2)O_(3) 薄膜表面没有发现基材中的金属元素,主要物相为Cr_(2)O_(3) 相。Cr_(2)O_(3) 薄膜退火后摩擦因数降低至0.45左右。结论Inconel 718合金、45钢以及316不锈钢中的金属元素扩散至薄膜表面时,其对Cr_(2)O_(3) 薄膜的物相组成、表面形貌以及摩擦学性能有很大的影响。IC10合金表面上沉积的Cr_(2)O_(3) 薄膜热处理后,磨损寿命较低。Inconel 718合金表面上沉积的Cr_(2)O_(3) 薄膜具有优异的摩擦学性能。

等离子喷涂Cr_(2)O_(3)-TiO_(2)/YSZ高效热防护涂层微观结构及性能研究

本文以Cr_(2)O_(3)、TiO_(2)和NiO为原材料,通过喷雾造粒和烧结获得了由尖晶石结构NiCr_(2)O_(4)和钙钛矿结构TiCrO_(3)组成的Cr_(2)O_(3)-TiO_(2)复合粉末。采用大气等离子喷涂技术在镍基高温合金表面制备Cr_(2)O_(3)-TiO_(2)/nano-YSZ复合涂层,分析测试了复合涂层的微观结构、抗拉结合强度、抗烧蚀性能和高温热辐射性能。结果表明,Cr_(2)O_(3)-TiO_(2)/nano-YSZ复合涂层孔隙率较低,抗拉结合强度达到29.2 MPa;经1.5 MW/m^(2)、600 s氧乙炔火焰烧蚀后,Cr_(2)O_(3)-TiO_(2)/nano-YSZ复合涂层表面有轻微点状剥落,涂层内部结构完整,未发生失效。在烧蚀过程中,Cr_(2)O_(3)-TiO_(2)/nano-YSZ复合涂层隔热能力达到426℃,比单一纳米YSZ涂层隔温能力高146℃,基体温度比纳米YSZ涂层低335℃;Cr_(2)O_(3)-TiO_(2)/nano-YSZ复合涂层在400℃和750℃在2~15μm波段内的法向发射率分别为0.91和0.89。

不同深宽比GaAs衬底的Al_(2)O_(3)/HfO_(2)复合薄膜材料原子层沉积及能谱分析

利用热原子层沉积(Atomic Layer Deposition,ALD)技术在不同深宽比GaAs衬底上进行了Al_(2)O_(3)/HfO_(2)复合薄膜的沉积。通过对其表面和能谱进行分析发现,沉积温度对复合薄膜的摩尔比具有较大的影响。随着深宽比的增大,其沉积表面和沟槽内会出现残留物;随着ALD沉积温度的上升,其沉积表面和沟槽内的残留物减少,摩尔比趋向均匀。当深宽比为2.2并利用150℃的低沉积温度时,表面及底面基本无残留物。但当深宽比为4.25时,150℃沉积明显有大量残留物。只有当温度升高到300℃时,表面和沟槽里复合薄膜的残留物才被明显消除。ALD技术可以实现各种器件结构的全方位钝化,这是其他化学气相沉积法无法比拟的。

Preparation and Characterization of Nanosized CeO2/γ-Al2O3 Composite Supports

Based on the γ-Al2O3 support with large-size pores, impregnation-deposition method was adopted to prepare the nano CeO_2/γ-Al2O3 composite supports. The results of XRD showed that there was no CeO_2-Al2O3 mixture or solid solution, indicating that CeO_2 was only loaded on the surface of Al2O3. The CeO_2/γ-Al2O3 composite support had larger specific surface area (170 m2·g-1), while for the non-loaded nanosized CeO_2, the specific surface area was small(～50 m2·g-1). The influence of impregnation and drying methods on the surface properties, thermal stability and crystal structure of composite supports was characterized by XRD, DTA and BET. The CeO_2/γ-Al2O3 composite support prepared by vacuum impregnation and microwave drying was better than that prepared by conventional impregnation and drying.

W掺杂Cr_(2)O_(3)薄膜的制备及其在异丁烯气体检测中的应用

为了实现对异丁烯气体的有效检测,采用气溶胶辅助化学气相沉积(AACVD)技术在氧化铝基底表面合成氧化铬(Cr_(2)O_(3))及W掺杂Cr_(2)O_(3)(W/Cr_(2)O_(3))薄膜。通过SEM、TEM、XRD及XPS等检测手段对Cr_(2)O_(3)及W/Cr_(2)O_(3)薄膜的微观形貌、晶体结构和元素结合价态进行分析。结果表明:Cr_(2)O_(3)薄膜厚度约为20μm,由粒径为50 nm左右的纳米颗粒组成,其结构较松散,而W掺杂Cr_(2)O_(3)后所获薄膜结构致密,颗粒粒径约为15 nm,尺寸明显减小,Cr_(2)O_(3)及W/Cr_(2)O_(3)薄膜均具有单一的六方相晶体结构。气敏测试结果表明,在400℃工作温度条件下,基于W/Cr_(2)O_(3)薄膜所制备的气体传感器相较于Cr_(2)O_(3)气体传感器对2×10^(-5)异丁烯的灵敏度由原来的1.11提升为3.55,并展现出良好的稳定性、抗湿性和气体选择性。

Multifunctional Ti_(3)C_(2)T_(x)-(Fe_(3)O_(4)/polyimide)composite films with Janus structure for outstanding electromagnetic interference shielding and superior visual thermal management

Flexible multifunctional polymer-based electromagnetic interference(EMI)shielding composite films have important application values in the fields of 5G communication technology,wearable electronic devices and artificial intelligence.In this work,Fe_(3)O_(4)/polyamic acid(PAA)nanofiber films are prepared by in-situ polymerization and electrospinning technology,and Ti_(3)C_(2)T_(x)nanosheets are deposited on the surface of the Fe_(3)O_(4)/PAA nanofiber films via vacuum-assisted filtration.Then,Janus Ti_(3)C_(2)T_(x)-(Fe_(3)O_(4)/polyimide(PI))composite films are obtained by thermal imidization.The two sides of the Janus films exhibit completely different properties.The Fe_(3)O_(4)/PI side has excellent hydrophobicity and insulation property,and the Ti_(3)C_(2)T_(x)side has hydrophilicity and terrific conductivity.When the mass fraction of Ti_(3)C_(2)T_(x)is 80 wt.%,the Janus Ti_(3)C_(2)T_(x)-(Fe_(3)O_(4)/PI)composite film has excellent EMI shielding performances and mechanical properties,with EMI shielding effectiveness,tensile strength and Young’s modulus reaching 66 dB,114.5 MPa and 5.8 GPa,respectively.At the same time,electromagnetic waves show different absorption shielding effectiveness(SEA)when incident from two sides of the Janus films.When the electromagnetic waves are incident from the Fe_(3)O_(4)/PI side,the SEA of the Janus film is 58 dB,much higher than that when the electromagnetic waves are incident from the Ti_(3)C_(2)T_(x)side(39 dB).In addition,the Ti_(3)C_(2)T_(x)side of the Janus Ti_(3)C_(2)T_(x)-(Fe_(3)O_(4)/PI)composite films also has excellent electrothermal and photothermal conversion performances.When the applied voltage is 4 V,the stable surface temperature reaches 108°C;when it is irradiated by simulated sunlight with power density of 200 mW/cm2,the stable surface temperature reaches 95℃.

Preparation and characterization of spherical mesoporous ZrO_(2)-Al_(2)O_(3) composites with high thermal stability

Spherical mesoporous ZrO_(2)-Al_(2)O_(3) composites containing different zirconia content have been synthesized by an oil-column sol-gel method.A mixed alumina-zirconia hydrosol and hexamethylenetetramine solution were mixed together and added dropwise into a hot oil column.Due to the surface tension,spherical gel particles were formed in the oil column.The spherical gel particles were then aged and washed by deionized water and dried at 120 ℃ for 12 h and then calcined at 600 ℃ for 8 h,960 ℃ for 8 h or 1200 ℃ for 12 h.X-ray diffraction and nitrogen adsorption-desorption measurements indicated that the presence of zirconia prevents the sintering of alumina and the obtained ZrO_(2)-Al_(2)O_(3) composites have much larger surface areas than pure alumina.Temperature-programmed desorption of ammonia results illustrated that the addition of zirconia leads to an increase in the number of strong acid sites and the total number of acid sites compared with pure alumina.Thus,the spherical mesoporous ZrO_(2)-Al_(2)O_(3) composites prepared in this way were shown to be suitable for high temperature catalytic processes as a catalyst support.

Synthesis and formation mechanism of nanocrystalline ZrB_(2)-Al_(2)O_(3)composite powders via an amorphous precursor

ZrB_(2)-Al_(2)O_(3)composite powders were synthesized at 1100℃using a novel ZrB_(2)precursor and Al powders as raw materials.The final ZrB_(2)-Al_(2)O_(3)composite powders consisted of submicron Al_(2)O_(3)and nanosize ZrB_(2)(50-100 nm)particles,which were homogeneously mixed in microscale.Combined with thermodynamic calculation and experiment results,the formation mechanism of ZrB_(2)-Al_(2)O_(3)composite powders was proposed as follows:ZrB_(2)precursor first decomposed into ZrO_(2)and amorphousB2O3.Aluminothermic reduction of ZrO_(2) and B_(2)O_(3) generated Zr and B atoms and the coproducts Al_(2)O_(3),and then,a series of reactions between Zr atoms,B atoms and Al took place to form ZrB_(2)and Al_(3)Zr.Then,ZrB_(2),Al_(2)O_(3)and Al were obtained through a liquid-solid reaction between Al_(3)Zr andB2O3,which is the limiting step in the conversion process.When the Al_(3)Zr was exhausted,the reaction between Al,ZrO_(2)and B became the main reaction to obtain ZrB_(2)and Al_(2)O_(3).

天然红宝石结构的原位漫反射中红外光谱研究

利用原位漫反射中红外光谱研究天然红宝石的结构,发现红宝石结构的红外吸收模式主要包括:α-Al_(2)O_(3)分子中O^(2-)对静止Al^(3+)位移对应的红外吸收模式(ν_(α-Al_(2)O_(3)-O-Al))、Cr_(2)O_(3)分子中O^(2−)对静止Cr^(3+)位移对应的红外吸收模式(ν_(Cr_(2)O_(3)-O-Cr))、Fe_(2)O_(3)分子中O_(2)−对静止Fe3+位移对应的红外吸收模式(ν_(Fe_(2)O_(3)-O-Fe))、α-Al_(2)O_(3)分子中Al^(3+)之间位移对应的红外吸收模式(ν_(α-Al_(2)O_(3)-Al-Al))及锌尖晶石特征红外吸收模式(νZnAl_(2)O4);红宝石的主要结构包括:α-Al_(2)O_(3)、Cr_(2)O_(3)、Fe_(2)O_(3)及少量共生锌尖晶石。采用原位漫反射中红外光谱,研究小颗粒红宝石类矿物结构具有重要的应用价值。