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1、1,Chapter 4 The Glass Science 玻璃科学,2,4.1 the World of Glasses,4.1.1 Natural Glasses天然玻璃 The volcanic outflow of the molten magma from the earth: get cooled and form glasses.在从地球的熔融岩浆火山流出:冷却和形成得到玻璃。 Impactites 冲击岩: formed from crystalline结晶materials rendered 致使 amorphous无定形by the shock休克of meteoric流星
2、impact.,3,Glasses: formed from impacted melts are known as tektites 玻殒石. Tektites: over the world Australia, Indian Ocean, Europe, Libyan desert Composition: alumino-silicate glasses At least 700,000 years old Micro-tektites: diameter 90%: is based on oxides and in particular silica,7,B2O3 and borat
3、e glasses P2O5 and phosphate glasses Complex oxide glasses,Chalcogenide 硫化物 Glasses:In the importance, chalcogenides are next to oxide glasses. Use: for infrared transmission,8,4.2 Preparation Technologies of Glasses,Glass: a solid obtained by supercooling a liquid, it is X-ray amorphous. Tg: glass
4、transition temperatureAt Tg, second derivative thermodynamic properties, namely heat capacity, thermal expansivity and compressibility undergo more or less sudden changes.,9,Tm: melting temperature crystalline product: when a liquid is cooled to its Tm, it generally solidifies to a crystalline produ
5、ct. not crystallize: when it is cooled rapidly. supercooling process,10,Dependence of rate of crystallization of an undercooled liquid on temperature,11,4.2.1 Preparation of Glasses,The required rate of cooling: is remarkably low because the maximum crystallization velocities in these materials are
6、themselves very low. High rates of quenching : it appears that any liquid can be quenched into a glassprovided the required high degree ofquenching rate is achieved.,12,4.2.2 Microwave Heating replacing conventional heating, rapid volumetric or bulk heating temperature of melt remain constant short
7、duration of time , homogenizing,13,4.2.3 Sol-gel Process 溶胶凝胶 Sol: is a suspension 悬浮液 of colloidal particles, which are of sub-micron or nanometer size. Sol-gel procedure: provides a convenient route to make glasses. Catalyst: is needed, otherwise the process is very slow .,14,4.2.3 Chemical Nature
8、 of Glass Forming Materials,Glasses types: covalent, ionic, molecular, metallic and hydrogen bonded materials. Made from: elements, simple chemical compounds, complex organic molecules, salt mixtures and alloys.,15,key factor: is just how fast the melt can be quenched. other factors: structural aspe
9、cts,16,4.2.4 Structural Approach to Glass Formation,Rules for glass formation (glassAmOn) : oxygen atom may be linked to less than two A atoms. the number of oxygen atoms surrounding A atoms must be small.,17,the oxygen polyhedra 多面体 share only coners with each other, neither edges nor faces. at lea
10、st three coners in each polyhedron must be shared.,18,4.3 Structure and Properties of Glasses,Knowledge: from experimental measurements Properties: are essentially composition-dependent, controlled by the first neighbor shell of the network formers or properties that are the result of generalized di
11、sorder.,19,4.3.1 Continuous Random Network Model Basic unit: SiO2 glass Character: continuous random network (crn model) The primary polyhedral unit remains the same in glass as in its crystalline phase in the crn model.,20,Short range order (SRO): a local or short range configuration with a length
12、scale defined by the first neighbour distance. Loss of periodicity: Extension of bond lengths and bond angles within reasonable limits in combination with rotation around single bonds over long distances.,21,Intermediate range order (IRO) / medium range order (MRO): the length scale over which a rea
13、sonable semblance to some positional ordering is still retained defines. Long range order (LRO): positional ordering over long distances. It is a characteristic of a crystalline state. Its absence defines the glassy state.,22,One of the requirements to apply crn model: the glass forming compound must have strong and highly covalent directional bonds. Metallic glasses: obtained by rapid quenching from their melts require a different structural model known as random close packing, rcp, (of spheres) model.,23,4.3.2 Random Close Packing(RCP) Model,
