PY2N20 Material Properties and Phase Diagrams
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1 PY2N20 Material Properties and Phase Diagrams Lecture 11 P. Stamenov, PhD School of Physics, TCD PY2N20-11
2 Silicates Combine SiO 4 4- tetrahedra by having them share corners, edges, or faces Mg 2 SiO 4 Ca 2 MgSi 2 O 7 Adapted from Fig , Callister 7e. Cations such as Ca 2+, Mg 2+, & Al 3+ act to neutralize & provide ionic bonding 2
3 Layered Silicates Layered silicates (clay silicates) SiO 4 tetrahedra connected together to form 2-D plane (Si 2 O 5 ) 2- So need cations to balance charge = Adapted from Fig , Callister 7e. 3
4 Layered Silicates (Porcelain) Kaolinite clay alternates (Si 2 O 5 ) 2- layer with Al 2 (OH) 4 2+ layer Adapted from Fig , Callister 7e. Note: these sheets loosely bound by van der Waal s forces 4
5 Layered Silicates Can change the counterions this changes layer spacing the layers also allow absorption of water Micas KAl 3 Si 3 O 10 (OH) 2 some capacitors Bentonite (essentially impure clay) used to seal wells general absorber (i.e. for cat litter, etc.) packaged dry swells 2-3 fold in H 2 O pump in to seal up dumps so that no polluted ground water seeps out to contaminate the water supply Zeolite Na 2 Al 2 Si 3 O 10 2H 2 O (also an excellent absorber) 194 unique forms have been identified, so far! 5
6 Machinable Ceramics Machined in the unfired or partially sintered state Bisque Alumina Hydrous aluminium silicate Macor TM, Cercanam TM and other glassceramic materials Machined in the fully fired state Yttrium stabilized Zirconia Mica-filled ceramics and glass-mica composites
7 Metal-Ceramics & Metal Glasses Metal-Ceramics NiO, BeO, Cr 2 O 3 (dentistry, etc.) Powder metallurgy (convenient for hard and brittle metals and for refractory metals i.e. hi-power electrodes) Metal-ceramic composites Ti + SiC, Ti + Si 3 N 4, Al + SiC, Al + TiB 2, Al + Al 2 O 3, etc. i.e. aircraft and automotive engines Metal-Glasses (add B, P, Si, Bi, C and/or Al) Amorphous or glassy state Magnetically soft sensors Quench-Condensation Melt-Spinning
8 Carbon Forms Carbon black amorphous surface area ca m 2 /g Diamond tetrahedral carbon hard no good slip planes brittle can cut it large diamonds jewelry currently, often manmade small diamonds often man made - used for cutting tools and polishing diamond films hard surface coat tools, medical devices, etc. Adapted from Fig , Callister 7e. E g = 5.5 ev n = Metastable and potentially decaying to graphite 8
9 Plasma-Enhanced CVD Process CH 4 + H 2 process gas mixture + RF + Temp. Poly-crystalline or epitaxial layers Intrinsically or purposedoped diamond layers Heat conduction layers Mechanical wear protection
10 Carbon Forms - Graphite layer structure aromatic layers Adapted from Fig , Callister 7e. weak van der Waal s forces between layers planes slide easily, good lubricant Highly Oriented Pyrolitic Graphite (HOPG) ZYA (< 0.4 o ), ZYB (< 0.8 o ) and ZYH (< 3.5 o ) production and use for monochromators 10
11 Carbon Forms Fullerenes and Nanotubes Fullerenes or carbon nanotubes wrap the graphene sheet by curving into ball or tube Buckminister fullerenes notes on their discovery Like a soccer ball C 60 - also C 70 + others Adapted from Figs & 12.19, Callister 7e. 11
12 Graphite and CNT Properties For reference only. Not required for the examination.
13 Measuring Elastic Modulus Room T behavior is usually elastic, with brittle failure. 3-Point Bend Testing often used. -tensile tests are difficult for brittle materials. cross section b rect. d R circ. F L/2 L/2 Determine elastic modulus according to: F x slope = F d d linear-elastic behavior E = F d L 3 4 bd 3 = rect. cross section F d Adapted from Fig , Callister 7e. δ = midpoint deflection L 3 12 p R 4 circ. cross section 13
14 Measuring Strength 3-point bend test to measure room T strength. cross section b rect. d R circ. F L/2 L/2 location of max tension Adapted from Fig , Callister 7e. δ = midpoint deflection Flexural strength: F f s = fs 1.5F f L bd 2 F x rect. = F f L pr 3 Typical values: Material s fs (MPa) E(GPa) Si nitride Si carbide Al oxide glass (soda) d fs d Data from Table 12.5, Callister 7e. 14
15 Measuring Elevated T Response Elevated Temperature Tensile Test (T > 0.4 T m ). creep test s s e x. slope = e ss = steady-state creep rate time Machinable ceramics are typically not well -performing at very high temperatures Implications on glassy state materials (long-term performance) 15
16 Summary of Ceramics Ceramic materials have covalent & ionic bonding. Structures are based on: - charge neutrality - maximizing # of nearest oppositely charged neighbors. Structures may be predicted based on: - ratio of the cation and anion radii. Defects - must preserve charge neutrality - have a concentration that varies exponentially with T. Room T mechanical response is elastic, but fracture is brittle, with negligible deformation. Elevated T creep properties are generally superior to those of metals (and polymers). 16
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