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Neither tensile strength nor compressive strength is inherently "stronger." Some materials are stronger in tension; other materials are stronger in compression. For example, rope is much stronger in tension than in compression, but concrete is much stronger in compression than in tension.
the rod will be stronger, but will break, the cable will bend under force, but not break. the rod has more tensile and shear strength.
The alloy used for welding should be similar in strength to the bulk material being welded. Otherwise there will be stress concentration at the junction between the two alloys. This problem is somewhat reduced when the metals mix during welding, if the weld point moves slowly enough.
You mean tensile strength. Different steels have different tensile strengths. The way they are made (drawn, cast, forged, etc.) is critically important to the tensile strength. By the way--steel is more important for its stiffness than its tensile strength.
High tensile steel may have ten times the tensile strength of wood, and more than twice that of mild steel, but it would be a mistake to overestimate the importance of this single quantity, as Fuller seems to do
High tensile steel is strong steel. It is 10 times stronger than wood and more than twice the tensile strength of mild steel. High tensile steel is commonly used in highway guardrails.
yep it is. It has much more tensile strength then steel.
High tensile steel put simply is used where structures require high tensile strength. Tensile stress is where the forces on a material are "pulling" from each end away from the centre. Steel can be alloyed with certain materials such as aluminum to create a material that is stronger under tensile loading. An example of where high tensile steel is required is the cables of the ANZAC bridge that support its deck. Hope this helps..
Neither tensile strength nor compressive strength is inherently "stronger." Some materials are stronger in tension; other materials are stronger in compression. For example, rope is much stronger in tension than in compression, but concrete is much stronger in compression than in tension.
Any web-spinning spider can do it, it is a property of spider silk. When it is said that spider silk is stronger than steel, this does not mean the webs themselves as is. It means that if you had enough spider silk to weave into the same thickness as a steel cable, the spider silk would have a tensile strength five times greater.
tensile test
Steel, which has a higher tensile strenght than pure iron, would be toughest to break. Steel is an iron alloy.
the rod will be stronger, but will break, the cable will bend under force, but not break. the rod has more tensile and shear strength.
u can easily go to the home depot or lowes, ask them for grade 8 bolts, regardless of people telling u that alloy steel is stronger, because, alloy steel may be stronger, but its tensile strength is weaker
Reducing stress in the steel.
No
Yes; most forms of concrete have a higher compressive strength than steel, though steel has the highest tensile strength of any commonly used construction material.