When optimizing the way your conveyor performs, making a decision on the correct material is essential. Different applications demand unique materials. To begin, you should do some research to understand the nature of different materials and what they mean for different uses.
Matching Material Properties for Application Requirements
The initial stage involved in picking the correct material for your conveyor belt is to consider what would be required of it during its service. These requirements include:
Strength and Endurance
For a lot of processes, rubber as a material is simply not tough or durable enough to get the job done. For these applications, a stainless-steel conveyor belt presents a perfect solution and ideal ratio of power-to-weight. Deciding on a stainless-steel alloy complete with top durability and strength will allow you to make use of a conveyor system that is confidently suitable for the job in hand. For complete strength and longevity, consider steel with top tensile abilities and considerable yield strength.
If the conveyor belt will be exposed to substances or liquids which are corrosive, like cleaning chemicals for example, you will need to choose a material that has high corrosive resistance to ensure your conveyor has a long life. For more information on the right Telescopic Conveyors for you, visit a site like https://fmhconveyors.com/products/telescopic-conveyors/
For most temperature ranges, stainless steel alloy belts will all operate fine. For extreme temperature ranges, both extreme highs and lows, you might want to consider a more suitable material with a lower rate of thermal expansion.
Optimizing performance with surface treatments
Working with an expert in conveyors, you’ll be able to work out which is the ideal type for your desired application. After an ideal material has been chosen, there is then the opportunity to further boost performance with a range of surface treatments. There are multiple coatings and surface treatments available, including Teflon, urethane, silicone, neoprene and anodization. Surface treatments provide a number of advantages to help with the changing nature of the work surface of the belt. Depending on the treatment you choose, these advantages include:
Increased wear resistance
Increased temperature resistance
Increased release properties
Improved lubrication and resistance to abrasion
Increased protection for delicate parts
Increase in toughness
Improved stain resistance
Surface treatments give you more flexibility in designing belts to meet your application needs. Because they are able to reinforce certain desirable characteristics, the choice of available surface treatments offers you the chance to construct the ideal conveyor belt.