热解法

采用喷雾热解法在玻璃基板上制备了SnO2∶F+Sb薄膜，对薄膜的结构及性能进行了研究。

Fabricated SnO_2 ∶ F + Sb thin films on glass substrate by spray pyrolysis .

以中央核处理器（CPU）这一典型的金含量高的电子废弃物为实验对象，采用油浴离心分离法、熔锡法及真空热解法对CPU进行预处理以实现针脚的分离。

Central processing unit ( CPU ), a significant electronic component with a high gold content , was taken in experiment . CPU was pre-processed by centrifugal separation , solder smelting and vacuum pyrolysis to separate the pins from the base plates .

喷雾热解法生长N掺杂ZnO薄膜机理分析

Growth Mechanism for N-doped ZnO Films Grown by Spray Pyrolysis Method

用甲酸盐前驱体热解法合成金属（Mn，Co，Cu）氧化物纳米晶

Metal ( Mn , Co , and Cu ) oxide nanocrystals from simple formate precursors

低温热解法合成和表征ZnO纳米粉末研究

Low Temperature Synthesis and Characterization of ZnO Nano-powder

微波诱导等离子体热解法合成碳膜包裹的TiO2纳米微晶

Synthesis of nanocrystalline titania with carbon coating by microwave induced plasma

采用FC化合物作为一种新型催化剂一一NiZnAl催化剂的前驱物，以催化热解法合成出了碳纳米管.管状、竹节状、鱼骨状和分叉状等多种形态的碳蚋米菅均被观测到。

Carbon nanotubes were synthesized by catalytic pyrolysis method with a kind of new type catalyst --

报导了一种简单而有效的制备非晶ZnO纳米粉末的方法，即固态低温热解法。

In this paper , a simple and effective method to prepare amorphous ZnO nano-powder by low temperature pyrolytic reaction is reported .

超声喷雾热解法生长氧化锌同质p-n结及其电致发光性能研究

Fabrication of ZnO p-n Homojunction by Ultrasonic Spray Pyrolysis and Its Electroluminescence Properties

采用喷雾热解法合成了无团聚的球形（Y，Gd）BO3∶Eu荧光粉。

Spherical ( Y , Gd ) BO3 ∶ Eu phosphor particles were synthesized by spray pyrolysis .

并简单介绍了YAG荧光粉的几种制备方法：高温固相法、喷雾热解法、燃烧法、溶胶-凝胶法和沉淀法。

There are several ways to prepare fluorescent powder of YAG , such as high temperature solid-phase method , spray pyrolysis method , combustion method , sol gel process and method of precipitation .

以乙二胺为前驱液，采用高温热解法，860℃下在镍基底表面生长CNx纳米管薄膜。

The CNx nanotubes films were fabricated by pyrolyzing ethylenediamine on Ni substrates at 860 ℃ .

以Fe（NO3）3·9H2O为主要原料，采用醇盐液热解法结合超临界流体干燥技术制备纳米α-Fe2O3微粉。

The nanosized α - Fe_2O_3 particles are prepared by heat decomposition and supercritical fluid drying technology with pure Fe ( NO_3 ) _3 · 9H_2O as main materials , and characterized by XRD and TEM .

在载玻片或ITO涂覆的玻璃上采用化学热解法沉积CdS固体薄膜，沉积温度在350～540℃之间。

CdS solid thin films were prepared on the substrates of slide glass or ITO coated glass by using chemical pyrolysis deposition technique ( CPD ) at different deposition temperature from 350 to 540 ℃ during film growth .

以球磨技术（BallMilling，BM）制得MgO·Ni2O3固溶体前驱物，并以直接还原法制得Ni/MgO纳米负载型催化剂，以催化热解法合成出管状的碳纳米纤维。

MgO · Ni_2O_3 solid solution precusor of nano-Ni-catalyst is prepared by ball milling technique , and Ni / MgO supporting nano-catalyst is produced by direct-reduction process . Then tube-like carbon nanofibers are synthesized by catalytic pyrolysis method .

以正硅酸乙酯（TEOS）为前驱体，二茂铁为催化剂前驱体，利用气相流动催化热解法在850～1160℃连续合成了单壁碳纳米管（SWNTS）。

Single-walled carbon nanotubes ( SWNTs ) were continuously synthesized by floating pyrolysis method in the temperature range of 850-1160 ℃ by using tetraethyl orthosilicate ( TEOS ) as raw material , ferrocene as the precursor of Fe particles .

SiF4的工业生产方法主要有硫酸法、六氟硅酸盐热解法和Si-HF直接合成法3种。

The industrial synthesis methods of SiF_4 mainly have sulfuric acid method , metal hexafluorosilicate pyrogenetic method and Si-HF direct synthesis method .

综述了90年代国内高纯超细α－Al2O3粉体的生产工艺，碱式碳酸铝铵热解法，以及制备氧化铝无机分离膜方面的进展。

The developments in the technology for preparing superfine α - Al2O3 powder of high purity in nineties in our country , the process of thermo-decomposition of ammonium aluminum carbonate hydroxide ( AACH ), and the techniques for preparing aluminum oxide inorganic separation membrane , are reviewed in this paper .

采用碳酸锰沉淀热解法进行300t/a化学二氧化锰（CMD）中试开发研究，就生产中的一些问题做了叙述，介绍了中试产品的各项技术指标。

Pilot experiment of 300t / a chemical manganese dioxide ( CMD ) prepared with manganese carbonate pyrogenation oxidation overall , some problems in the course of producing CMD and information of each technology target of the products were described .

综述了超细NiO粉体近年来的制备方法及其特点（主要有固相反应法、沉淀法、微乳液法、喷雾热解法、热分解法和电化学法），介绍了超细NiO粉体的应用现状。

The recent preparation method ( Such as solid-state reaction , precipitation method , micro-emulsion method , spray pyrolysis method , thermal decomposition method and electrochemical method ) and theirs characteristics of preparation of ultra-fine NiO powder are reviewed . The application of ultra-fine NiO powder is also introduced .

对采用异步脉冲超声喷雾热解法所制备的棒状BiSI纳米晶薄膜样品的介电特性和光吸收特性进行了测试。

The dielectric properties are measured , such as dielectric constant and dielectric loss , and the visible absorption of the BiSI nanorod films deposited by asynchronous pulse ultrasonic spray pyrolysis ( APUSP ) .

采用浸渍热解法，以n-C7H（16）/CCl4为热解质，讨论浸渍液体积比、热解温度等对粘胶基碳纤维（RCF）拉伸性能的影响。

The Rayon-based carbon was treated with n-C7H16 / CCl4 as a pyrolysis reagent by impregnating pyrolysis . The effects of pyrolysis conditions , such as impregnant volume ratio , pyrolysis temperature , on the tensile properties of Rayon-based carbon fiber were discussed .

热解法生长金刚石薄膜的形貌分析

Investigation on Morphology of Diamond Thin Film Grown by Thermal CVD

GB/T13249-1991硫化橡胶中橡胶含量的测定管式炉热解法

Rubber vulcanized - Determination of rubber content-Furnace tube pyrolytic method

溶剂热解法合成氰尿酸的研究

Study of Synthesizing Cyanuric Acid by Pyrolysis Method in Solvent

喷雾热解法合成镁铝尖晶石纳米粉末的制备与表征

The Synthesis and Characterization of the Nano-Spinel Powders by Spray-Pyrolysis

热解法在固体废物处理上的应用简介

Introduction on Application of Pyrolysis in Dealing with Solid Refuse

高温瞬时热解法产生甲基自由基束

Methyl Free Radical Beam Generated by Flash Pyrolysis Method

喷雾热解法和等离子体热处理法制备荧光体

Review on Preparation Methods of Spherical Phosphors by Spray Pyrolysis and Thermal-Plasma Treatment

深入探讨了喷雾热解法的成膜机理。

The formation mechanism of the thin films prepared by spray pyrolysis was discussed .