A Quick Guide To Common Examples Of Mechanical Testing That Are Performed To Guarantee The Safety And Usability Of Your New Home
If you have recently purchased a new home and are concerned as to its sturdiness, safety, and durability, it's a good idea to familiarize yourself with the nuances of mechanical testing. Mechanical testing consists of a number of procedures that have been scientifically proven to accurately determine the attributes of mechanical or plumbing products. Therefore, when you need to know that your new home is as safe as it can be, you should be aware of the following examples and benefits of common types of mechanical testing.
Evaluating The Flexural Strength Of Building Materials Within The Home With A Flex-Test
The flexural strength of an item is also known as its bend strength, modulus of rupture, or transverse rupture strength. Determining the flexural strength of an item, or that of two or more items that have been joined together, is important because it establishes how much stress that item can take before it breaks or otherwise becomes unusable.
As you might guess, the flexural strength of a single or joined item is determined with a flex test. A flex test verifies the tensile, compressive, and sheer strength of the item in question. It does so by applying an increasing amount of force, at one or two contact points of the tested item, in order to determine the total stress that the product can experience before it quits working. That information allows architects to design items that can safely support products of different weights safely and is appropriate for use on plastic, composites, concrete, and ceramics, among others.
Torque Testing For The Hardware And Fasteners Used To Build Your Home
Once the strength and associated functionality of the strength and usability of specific items have been determined and proven, it only makes sense that another crucial component to be established is torque. Torque can be defined as the force that is known to result in rotation or torsion. It can also be explained as the degree of measure of that rotation or torsion in order to force the movement of a seemingly secured item. Torque is seen in many applications, with one common example being the steering wheel in cars.
When your home was being built, the torque of the different fasteners and hardware was determined. That was necessary to establish early on because if a single fastener fails to function as expected or stops working entirely, the entire project could be impacted. Walls, ceilings, cabinets, flooring and in some instances, the foundation of a home, could incur damage and become unsafe if the connective parts they feature malfunction.
Therefore, torque testing features two separate, but essential, evaluations. The first is in-line testing and establishes the degree of torque that is needed in order to force a rotating part to move and a reaction test is performed in order to learn how much torque is needed to keep that moving item stationary. That information makes it possible to assure that the fasteners and hardware used to build your home can function as required and expected for an acceptable period of time.
In conclusion, mechanical testing includes many different tests that assess the properties of specific parts or constructed pieces that have been assembled by joining two or more items together. Those tests are used to confirm or deny the safety, usability, and durability of mechanical work within your home. As a result, mechanical testing plays an enormous role in the construction and planning of homes and buildings, and the above examples are common examples of those tests.
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