Found 13 Articles for Solid Deformation

Introduction Poisson's ratio is a very important material property that gives us details about how various materials can deform under fill up. Now let's take an example of the rubber band. If you take a rubber band and stretch it along its length direction, its length increases but you see at the same time in the middle the band will get thinner. So, in this regard Poisson ratio can tell us how much thinner the rubber band is going to end. From the above figure, L is the original length of the band, but after stretch or application of ... Read More

Introduction Every matter in the universe is composed of tiny particles called molecules. They attract each other with some attractive force. There exists an intermolecular force of attraction between molecules. Based on the force of attraction between the molecules, matters are classified into five categories. They are solid, liquid, gas, plasma, and Bose-Einstein. Solids are the matter in which the distance between the molecules is very small and they are tightly bound to each other. Liquids are matter having molecules at a small distance and they bound less tightly than solids. What is Elasticity? When a force is applied ... Read More

Introduction Every matter in the universe is composed of tiny particles called molecules. They attract each other with some attractive force. There exists an intermolecular force of attraction between molecules. Based on the force of attraction between the molecules, matter are classified into five categories. They are solid, liquid, gas, plasma, and Bose-Einstein. Solids are matter in which the distance between the molecules is very small and they are tightly bound to each other.What is Elasticity? When a force is applied to a body it gets deformed. If the body regains its original shape after the removal of force from ... Read More

Introduction At the molecular level, studying different materials is the job of a material scientist. These scientists study, research, and develop new materials which help shape modern industries. Depending on properties, composition, and other factors, all materials in this world are divided into various types and classes. Polymers are a very interesting class of materials or substances that can be termed omnipresent. The term polymer is used to refer to substances whose molecules are large and consist of a large number of repeating portions or subunits. From natural presence in the human body to synthetic development over the years, polymers ... Read More

Introduction It is the quantity that is related to the stretching or in this case the tensile forces. This is responsible for the lengthening of a particular material along the course of the axis on which the load is applied. The tensile stress thus is associated with the magnitude of the force that is being applied upon a rod that has a certain extent of elasticity and the magnitude is divided by the cross-sectional area which is perpendicular to the force that is being applied onto the material. The tensile is a subdivision of normal stress that is a force ... Read More

Introduction The application of stress is used to deform an object with the applied pressure which is external. According to physics, the ratio of stress to strain will remain consistent. Elasticity is one of the considerably significant mechanical effects to evaluate when selecting the right object for its application. Additionally, in this article, the relationship between stress and strain has been highlighted by making appropriate comprehension of Hooke’s laws. Information Regarding Stress The application of force that is used to deform an object by applying it from the external force is known as stress. The amount of applied force that ... Read More

Introduction The application of a deforming force can make an object deform. Further, in the process of getting back the object into the actual shape, another force is required. From inside the object, an opposing force gets released. Different types of stress can be categorised in different formats based on the action performed. Moreover, stress is applied to deform the body. A curve line can represent the relation between the stress-strain visually. In this tutorial, detailed information about stress has been described with types and Hooke’s law. Information Regarding Stress A solid item has a fixed shape and size followed ... Read More

Introduction Shear Modulus of elasticity refers to the mechanical properties of solid objects. Other types of elastic moduli are Young’s modulus and bulk modulus. These particular modules provide a ratio of the shear stress in respect of the sheer strain of a mechanical body. The Pascal or Pa measures the Shear Modulus Elastic Moduli, which is the SI unit of this property. The dimensional formula of the shear modulus refers to M1L-1T-2. Shear modulus is generally represented by G. F denoted the applied force to the objects and Ac stands for the crosssection area of the object perpendicular to the ... Read More

Introduction Shearing stress refers to a deforming force on those cats as per unit area as well as in the direction of perpendicular number axle. An object that is stressed experiences shear stress, as well as tangential stress. If the shearing stress is normal as well as longitudinal stress that force vector can also be perpendicular in terms of the cross-sectional area on which acts on the particular objects. Simply, the shearing stress is a kind of stress that acts as a coplanar with the cross-section of material. Shear force is the principal reason for rising the shear stress. ... Read More

Introduction Bulk modulus is one of the most important properties in all of materials science. It’s defined as the ratio of stress to strain within a material and can be used to calculate things like how much stress it takes to fracture the material or how much strain it will undergo when you apply a given amount of force to it. If you’re working with any type of elastic object in your day-to-day life, then you’ll definitely want to brush up on this important material property. Bulk Modulus of Elasticity Before I go into detail on what bulk modulus of ... Read More