Physical-mechanical properties table

Mechanical Properties. Table 2 shows the physical properties of Teflon PEA (22,23). At 20—25°C the mechanical properties of PEA, EEP, and PTEE are similar differences between PEA and EEP become significant as the temperature is increased. The latter should not be used above 200°C, whereas PEA can be used up to 260°C. Tests at Hquid nitrogen temperature indicate that PEA performs well in cryogenic appHcations (Table 3). 

Thus, bearing in mind that smaller filler concentrations worsen the physical-mechanical properties of the composites to a smaller degree, it follows that the most promising are the fillers which provide for a preset level of a at smaller concentration. The table shows that the most promising are carbon fibers coated with Ni (American Cyanamid) and steel fibers (Brunswick Corp.) [16]. 

Characterization of the Crude Polymerizate. Physical-Mechanical Properties. A preliminary characterization from physical-mechanical and rheological point of view was carried out on the crude polymerizate (Tables VII and VIII). 

The physical mechanical properties for initial and filled materials, with compositions, are presented in Tables 1 and 2. 

The study of the influence of plasticizer on physical-mechanical properties of ME is presented in Table 3. Introduction of plasticizer causes elongation increase (up to 1100 %) and reduction of elasticity (up to 1.7 kPa) at the same time. 

The finely crystalline zeolitic matrix of tuffs cements the other non zeolitic particles and is responsible for the overall mechanical properties of the material. The compactness and the consequent physical-mechanical properties are somewhat variable as they are function of various parameters, such as mineral composition, tuff genesis, and original conditions of the deposit, especially as regards looseness of the parent material, grain size distribution, and others. Table 3 summarizes some data on unit weight, y, porosity, P, and uniaxial compressive strength, a, of a few tuff samples and other stone materials. 

Polymer concrete based on two kinds of liquid rubbers was investigated type A, low molecular polybutadiene (Butarez , Liten [1,4-cis 25%-39% 1,4-trans 35%-40%, 1,2-vinyl 28%-35%]) and type B, stereoregular low molecular rubber (Polyoil 110/130 , Ricon (1,4-cis 70%-80% 1,4-trans 20%-30%, 1,2-vinyl l%-2%). The main physical-mechanical properties are shown in Table 2.5. 

The physical-mechanical properties of the optimum SPC compositions are illustrated in Table 3.6. It should be noted that the SPC mix modified with TFS has higher strength indexes and greater deformability. Study of shrinkable deformations... 

Physical-Mechanical Properties and Coefficients of Chemical Resistance of the New Adhesive Composition Presented in Table 3.11... 

The physical-mechanical properties of the SPC, reinforcement, and adhesive as beam material are given in Table 3.13. 

Table III summarizes the most important physical-mechanical properties, as determined by ASTM methods, of high impact PS and PVC with EPDM type C elastomer contents of 10% and 9.2% respectively (see Experimental section above for preparative techniques). These products are characterized in Table IV.

Table 1. Physical-mechanical properties of the rock mass. 

For a comparison of physical/mechanical properties see again Table 2.1. 

TABLE 7.3 Physic-Mechanical Properties of Some Liquid-Crystal Polyesters of iV-Oxy benzoic Acid... 

TABLE 7.4 Physic-Mechanical Properties of Polyesteresterketones of Company... 

The wide composition range results in an equally wide range of physical (Table ld.20) and mechanical properties (Table ld.21). The high rigidity and strength of these alloys as compared to that of the precious metal alloys make them suitable for the production of small prosthetic devices. 

TABLE 7.3 Physic-mechanical Properties of n-Oxybenzoic Acid Some Liquid-Crystal Polyesters of ... 

Table 10.1 summarizes the characteristics of each of the four essential properties. It is important to recognize that these characteristics are interrelated. For example, capillarity of a suture material, which is a physical/ mechanical property, is closely related to the ability of the suture to transport bacteria, which is a biological property. The modulus of elasticity, a physical/mechanical property, affects the pliability of sutures, a handling property. A brief description of each of those essential properties will be given below and they are Usted in Tables 10.1 through 10.7. Readers should be aware of the fact that the data in the tables vary with the specific clinical and/or physical environments that suture materials are subjected to and the constant refining of manufacturing processes by suture manufacturers. 

TABLE 13 Physical-mechanical properties of epoxy resin ED-22, modified by epoxyorganosUicon oligomer Xll with hardener MTGPA (D-5). 

By consideration of character of influence cyclohexyl phosphonic acids, her potassium salts, and also phosphine oxide on physical-mechanical properties PEHD in conditions shock loading it is noticed (Tables 3, 4), that the behavior of data PhOC practically does not differ from those phosphinic acids and its salts. 

Table 3. Physical-mechanical properties of compositions on a basis PEHD and PhOC in conditions of shock test...

Table 1. Physic-mechanical properties of the pressed samples of compositions on the basis of polythene and starch...

WO -I- 572-WO -I- 836 segment is mainly class in, with a little class IV. WO + OOO-WO -l- 018 segment is mainly class III. The rest is mainly class I and H, with good engineering geological conditions. The surrounding rock physical mechanical property parameter values are shown in Table 1. 

Table 11. Physical/Mechanical Properties of Commercial Injection-Molded SAN Resins ...

Poly(Vinyl Chloride) (PVC). Poly(vinyl chloride) is never used alone. It is always mixed with heat stabilizers, lubricants, plasticizers, fillers, and other additives to make processing possible, all of which can influence its physical and mechanical properties. Table 1 lists properties of rigid (unplasticized) PVC with a total additives content of < 10%. Table 2 lists properties of flexible (plasticized) PVC where the range of physical properties varies widely, depending on the plasticizer content. Plasticizer content can vary between 20 and 100 phr and so as a guide properties typical of a plasticizer content of 50 phr are given. 

Table 4.8Some physical-mechanical properties of Celsol fibres... 

Table 2.28 Physical—mechanical properties of PU elastic fiber ... 

Engage polyolefin elastomers (POEs), ethylene octene copofrmer elastomers, produced by DuPont Dow Elastomers, use Insite catalytic technology. Table 3.2 shows their low density and wide range of physical/mechanical properties (using ASTM test methods). ... 

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