Joint

Difference Between Weld Metal and Heat Affected Zone (HAZ)

Welding is one of the manufacturing processes where two or more materials can be joined permanently through coalescence formation with or without the application of external heat, pressure, or filler metal. Welding processes can be broadly classified as fusion welding and solid state welding. In fusion welding processes, significant amount of heat (thermal energy) is applied from external source in order to fuse (melt) the faying surfaces of the components

Difference Between SMAW and FCAW - Shielded Metal Arc Welding and Flux-Cored Arc Welding

A sub-group of fusion welding where electric arc is used to supply necessary heat for melting the faying surfaces of the base metals is termed as arc welding. Here the electric arc is established between an electrode and the base metals when sufficient potential difference is applied across them. For few arc welding processes, the electrode is allowed to melt and subsequently deposit on the weld bead to supply filler

Difference Between GMAW and FCAW - Gas Metal Arc Welding and Flux-Cored Arc Welding

Arc welding is a sub-group of fusion welding where an electric arc is used to supply heat for fusing the parent metals for coalescence formation. The electric arc is constituted between an electrode and the base metals. The arc welding electrode can be either consumable or non-consumable. A consumable electrode is meant for melting by the arc heat, and subsequently depositing on the weld bead to supply filler metal. Such

Difference Between TIG and SAW - Tungsten Inert Gas welding and Submerged Arc Welding

Arc welding is a subset of fusion welding process where the heat is supplied from an electric arc for melting the faying surfaces of the base metals for coalescence formation. This arc is established between an electrode and the base metals under sufficient potential difference. This arc welding electrode can be of two types – consumable and non-consumable. A consumable electrode is allowed to melt due to arc heat, and

Difference Between SMAW and SAW - Shielded Metal Arc Welding and Submerged Arc Welding

Arc welding processes are a subgroup of fusion welding as an electric arc established between an electrode and base plates is used to supply heat for melting the faying surfaces for coalescence formation during welding. The electrode is sometimes consumable, while it is non-consumable in other few arc welding processes. Apart from assisting in arc formation, a consumable electrode melts owing to arc heating, and subsequently deposits on the weld

Difference Between GMAW and SAW - Gas Metal Arc Welding  & Submerged Arc Welding

Welding is one of the manufacturing processes where two or more materials having similar or different compositions can be joined permanently with or without the external application of heat, pressure, and filler metal. In all such welding processes, where heat is applied from external source for melting the faying surfaces of the parent components, are termed as fusion welding. Arc welding processes are basically a sub-group of fusion welding processes

Difference Between Gas Shielding and Flux Shielding for Arc Welding

All arc welding processes are fusion welding; it means that the coalescence formation takes place through melting (or fusion) of the faying surfaces of the parent components. An electric arc is established between an electrode and the base plates that are to be joined. This arc supplies necessary heat for melting the faying surfaces of the base plates. The consumable electrode or the filler metal, as the case may be,

Difference Between Carbon Electrode and Tungsten Electrode for Arc Welding

Arc welding is one class of fusion welding where the faying surfaces of the base metals are melted by supplying heat through an electric arc. The arc is constituted between an electrode and the base metals. Arc welding electrodes can be broadly classified as consumable and non-consumable. While few arc welding processes utilize consumable electrode, others employ non-consumable electrode. Consumable electrodes are meant for melting during the welding to supply

Difference Between CAW and TIG - Carbon Arc Welding and Tungsten Inert Gas Welding

In arc welding processes, the heat (thermal energy) required for melting the faying surfaces of the parent components are supplied by an electric arc. This arc is established between an electrode and the metallic components – both connected to a power source. The arc welding electrode can be either consumable or non-consumable. A consumable electrode melts down during welding due to the arc heating, and the molten metal subsequently deposits

Difference between forehand welding and backhand welding

In gas welding, a flame supplies necessary heat for fusing the base metals. Similarly, in arc welding, an electric arc supplies necessary heat. While joining two components by either gas welding or arc welding, the flame or arc can be moved towards the direction of weld progression or opposite to the direction of weld progression. Based on the relative position of the weld bead (puddle) and flame/arc, welding technique can

Difference between reducing flame and oxidizing flame

Oxy-fuel gas welding is one fusion welding process where components are permanently joined together. Here heat is supplied by burning a suitable gaseous carbonaceous fuel with oxygen. Potential fuel oxy-fuel gas welding incudes acetylene, propylene, propane, MAPP (methylacetylene-propadiene propane) gas, and natural gas; however, acetylene (C2H2) is frequently used as it offers maximum flame temperature. Both the fuel and oxygen are stored separately in cylinders, and these are mixed in

Difference between arc welding and gas welding

Welding is one joining process where two or more components can be joined permanently with or without the application of heat, pressure, and filler metal. All welding processes can be broadly divided into two categories – fusion welding and solid-state welding. In fusion welding, heat must be applied to melt down the connecting surfaces of the parent component for coalescence or weld bead formation. In solid-state welding, no such melting

Difference between consumable electrode and non-consumable electrode

Arc welding is one type of fusion welding process where an electric arc is used to supply heat for melting the faying surfaces of the parent metal and also the filler metal. There are several arc welding processes namely Shielded Metal Arc Welding (SMAW), Gas Metal Arc Welding (GMAW), Gas Tungsten Arc Welding (GTAW), Flux Cored Arc Welding (FCAW), Submerged Arc Welding (SAW), Electroslag Welding (ESW), Carbon Arc Welding (CAW),

Difference between GMAW and GTAW

In every arc welding process, an electric arc that is established between the conductive base plates and the electrode is used as the heat source to fuse the faying surfaces of the base metal in order to form the coalescence. There are several arc welding processes, namely SMAW, GTAW, GMAW, FCAW, SAW, etc. Each of these processes offer several advantages over the others. Gas Metal Arc Welding (GMAW) is one

Difference between SMAW and GMAW

Arc welding is one type of fusion welding process where an electric arc is used to supply heat for fusing the faying surfaces of the base materials that are to be joined. In order to weld wide variety of materials in different fashions, there exist several arc welding processes, namely, shielded metal arc welding, gas metal arc welding, gas tungsten arc welding, submerged arc welding, flux cored arc welding, submerged

Difference between DCEN and DCEP polarities in arc welding

Arc welding is one type of fusion welding process where an electric arc is used to supply necessary heat for fusing the faying surfaces of the base metals and also the filler metal. In every arc welding process, the conductive base plates are connected with one terminal of the power source, while the electrode is connected with other terminal. A small gap (1 – 3mm) is always maintained between the

Difference between TIG welding and Activated-TIG welding

Gas Tungsten Arc Welding (GTAW), popularly known as Tungsten Inert Gas (TIG) welding, is one fusion welding process where an arc is established between the non-consumable tungsten electrode and the base plates. It is mostly suitable for autogenous mode; however, filler metal can also be applied by feeding separate filler rod into the welding zone. An inert shielding gas (argon or helium) is also supplied to shield the hot weld

Difference between MIG and MAG welding

Gas Metal Arc Welding (GMAW) is one fusion welding process where an electric arc is constituted between a consumable electrode and the base metals. This arc supplies necessary heat to melt down the faying surfaces of the base plate to form the coalescence. The GMAW electrode comes in the form of a small diameter wire having very long length that is wound in a wire-pool. During welding, this wire electrode

Difference between MIG and TIG welding

In every arc welding process, an electric arc is constituted between the electrode and the conductive base metals. This arc supplies necessary heat to fuse the faying surfaces of the base plates. There are several arc welding processes, namely, manual metal arc welding, gas metal arc welding, gas tungsten arc welding, flux core arc welding, submerged arc welding, etc. Each process has unique characteristics and offers several benefits compared to

Difference between thread joint and weld joint

Joining can be performed either mechanically or chemically. A mechanical joint can be either temporary and permanent. A temporary joint is one that gives the provision of easy and quick dismantling of joined parts without rupturing them, whereas a permanent joint does not allow dismantling of assembled parts without breaking them. Weld joint and rivet joint are considered as permanent joints; while thread joint, cotter joint, knuckle joint, etc. are

Difference between fusion welding and solid state welding

Welding is one type of manufacturing process by which two or more similar or dissimilar materials can be joined permanently by weld bead formation with or without the application of external pressure, heat or filler material. There exist different types of welding processes, each of them follows unique procedure to weld two or more components. Welding processes can be broadly classified as arc welding, gas welding, resistance welding, solid state

Difference between temporary joining and permanent joining

In manufacturing industries, joining of two or more components is indispensably necessary for assembly purposes. Joining makes the production system more reliable, efficient and profitable. In fact, joining can be defined as one of the manufacturing processes by which two or more solid components can be assembled together with or without the application of external elements such as filler, strap, heat, pressure, etc. There exist various joining techniques in order

Difference between homogeneous and heterogeneous welding

Welding is one of the manufacturing processes by which two or more similar or dissimilar materials can be joined permanently by coalescence formation with or without the application of external pressure, heat or filler material. When external heat is applied to fuse faying surfaces it is termed as fusion welding; otherwise it is called as solid state welding. During fusion welding, filler material can be applied externally to fill the

Difference between hot riveting and cold riveting

Like welding, riveting is also one permanent joining process used for mechanical assembly of two or more solid components. In riveting, arrays of through holes are first drilled on the components in pre-defined locations. Additional strap plates, if used, are also drilled in the corresponding locations. Rivets of specific dimension are then inserted via these holes. The diameter of the drilled hole on the components is larger than the shank

Difference between weld joint and rivet joint

Joining is a part and parcel in manufacturing as it is used to assemble two or more solid components either permanently or temporarily. Although a permanent joint does not allow disassembly of parts without rupturing them, it has immense demand in assembly as it can provide a strong, leak-proof and inherently anti-loose joint. Welded joint and riveted joint are two commonly used permanent joining processes; however, now-a-days riveted joints are

Difference between thread joint and rivet joint

Joining is one of the manufacturing processes by which two or more components can be assembled together to unify them. There exists a wide variety of such joining processes to fulfill the need of assembling various components in several ways. Broadly, these processes can be classified into two categories—permanent joining and temporary joining. A permanent joint is one where the jointed components cannot be dismantled easily without rupturing them, while