Mechanical Properties Clause Samples
The Mechanical Properties clause defines the required physical characteristics and performance standards that materials or products must meet under a contract. It typically specifies parameters such as strength, hardness, ductility, and durability, and may reference industry standards or testing methods to verify compliance. By clearly outlining these requirements, the clause ensures that delivered goods are fit for their intended purpose and helps prevent disputes over product quality or suitability.
Mechanical Properties a) Yield Strength: 42.5 ksi maximum as received and 36.0 ksi minimum after 400 degrees F bake for 10 minutes. b) Elongation in 2": 3% minimum as received
Mechanical Properties. (As-Received) H19 Temper: Yield Strength: 44-52 ksi Tensile Strength: 48-58 ksi Elongation in 2": 2% minimum
3. Chemical Composition (% maximum unless shown otherwise):
Mechanical Properties. Mechanical strength - length direction kN/m EN ISO 10319 kN/m 47 Mass per unit area # EN ISO 9864 g/m2 2,000 Nominal Thickness # EN ISO 9863-I mm 12 Geomat Color# Black Roll Length m 25 Roll Width m 1.95 Values indicated in the table are typical values # Not performance parameter
Mechanical Properties. Property Class 12.9 as per IS : 1367, ISO : 898 Part I.
Mechanical Properties. The rock mass surrounding the fracture was modelled as a homogeneous, isotropic and elastic material, with a Young’s modulus of 40 GPa and a Poisson’s ratio of 0.22. The fracture was modelled with a Coulomb slip criterion and the fracture parameters used were altered between different models to evaluate their influence on fracture shear displacements. The fracture was simulated with no cohesion and no dilation.
Mechanical Properties. The load on the cladding depends the mechanical evolution of the fuel in the reactor since it governs the fuel- cladding mechanical interaction (FCMI), which becomes significant during permanent low power operation or in case of a power increase after a long low-power operation. The mechanical properties also come into play in gap closure, which has a supreme influence on the temperature of the fuel and the corrosion of the cladding, but whose mechanisms are largely unknown.
Mechanical Properties. Tensile Strength: >= 0.1 Kg/mm(2) % Elongation: >= 100% Moisture Vapor Transport Rate (MVTR): Upright >= 1100 g/m(2)/24 hrs.
Mechanical Properties a Grade A
Mechanical Properties. Tensile strength of PVC plasticized by DINP is similar to that of PVC plasticized by DEHP, as reported in Figure 6 a), extracted from [1]. In this case, Placard, which lowers the strength by a higher amount (Figure 6 b)), is more efficient than DEHP and DINP (a plasticizer, softening the polymer, is expected to decrease the tensile strength). In Figure 6 a), the tensile strength of PVC plasticized by 70 phr of DEHP can be estimated to be, by the linear fitting, And the tensile strength of PVC plasticized by DINP: Therefore almost the same value of strength. Instead, by Figure 6 b) the tensile strength of PVC with Placard S29 is 20% lower than that of PVC plasticized with DEHP, and the tensile strength of soft PVC with placard S32 is 15% lower than that of soft PVC with DEHP. Addition of Placard involves a decrease of the strength by a factor of 20% (for S29) and 15% (for S32) compared to DEHP and DINP. a) b) (MPa) T S291 S32 DEHP Figure 6: Tensile strength comparison a) between DEHP and DINP plasticised PVC and b) between soft PVC samples with DEHP and Placard. Source: Placard Consortium
Mechanical Properties. For Hexagonal Bolts:(IS-1367 Part-III)1991