1. The importance of tensile strength
Tensile strength refers to the stress that a material can withstand under tension. For bundling and packaging materials, tensile strength directly determines the load capacity it can withstand. In heavy packaging, steel straps often need to withstand great tension, especially during transportation and storage, when the goods may be subject to external forces such as vibration and impact.
The tensile strength of Blue tempered steel strapping reaches 370 MPa, and its average strength is as high as 700N, far exceeding the standard of general steel strapping. This allows it to easily withstand various external forces when bundling heavy goods, ensuring that the goods are firmly fixed and will not cause transportation losses or accidents due to the breakage or loosening of the bundling materials.
2. The role of tensile strength in ensuring packaging safety
Avoid breakage and enhance packaging stability
Due to the high tensile strength of Blue tempered steel strapping, it can effectively avoid the risk of steel strap breakage due to excessive external force when bundling heavy goods. Blue tempered steel strapping can effectively resist these external stresses and ensure the stability of goods during transportation due to its tensile properties.
Maintain uniform binding force to prevent local damage
Due to the high strength of Blue tempered steel strapping, it can maintain uniform tensile force distribution after bundling. For heavy items such as large equipment and steel that need to be bundled, uniform binding force is very important. It can effectively prevent excessive local force from causing steel strap breakage or damage to the surface of the items. This is crucial to prevent heavy objects from being squeezed or deformed during transportation.
Withstand overload and ensure safe transportation
For goods that need to carry a large weight, the high tensile strength of Blue tempered steel strapping provides additional safety protection. Even under load conditions, the steel strap can still ensure the stability of the packaging and will not cause the binding to fail due to excessive stress. Especially in industries such as steel, building materials, and heavy machinery, packaging materials need to withstand excessive pressure, and the high tensile strength of Blue tempered steel strapping shows its important value in this case.
3. Tensile strength advantage of Blue tempered steel strapping
The reason why the tensile strength of Blue tempered steel strapping can reach 370 MPa is due to the high-quality steel materials Q195, Q235, and Q345 used. Different types of steel have different physical properties:
Q195: has good ductility and is suitable for packaging with lower load requirements, but still performs well in environments that require a certain strength.
Q235: has higher strength, is suitable for bundling with medium loads, and is widely used in general industrial packaging.
Q345: has higher tensile strength and impact resistance, is suitable for packaging heavy goods, and ensures that the steel strap is not easy to break or deform under high load conditions.
4. Tensile strength performance in application scenarios
The high tensile strength of Blue tempered steel strapping enables it to be widely used in multiple industries, especially in heavy packaging scenarios with extremely high requirements for bundling strength:
When large machinery and equipment, engineering tools, etc. need to be bundled, Blue tempered steel strapping can provide sufficient support to ensure the fixity of items during transportation and prevent movement or damage due to transportation vibration.
Building materials such as steel and concrete have high weight and density, and require stronger packaging materials when strapping. Blue tempered steel strapping can easily withstand these weights and stabilize the strapping to avoid damage to the goods or transportation accidents.
In packaging such as bulk commodities and pallet reinforcement, Blue tempered steel strapping provides security and can withstand large external forces and weights to ensure the stability of goods during transportation.