We're here for all your Layton Utah welding needs
Welding seems to play a continuing role in the development and production of many industries. Welding is clearly the most common and effective way of fabricating and repairing metal products. You would be hard pressed to find an industry that does not employ some type of welding. Welding continues to prove itself to be an efficient, dependable, and economical means of joining metal in practically all metal fabricating operations.
In tooling– up for a new model automobile, A manufacturer may spend upwards of a million dollars on welding equipment. Most structures you see in the world today, things such as bridges, commercial buildings, office structures, parking garages, airplanes and ships are all created through welding; and where noise from construction is not ideal or safe,, the value of welding as the chief means of joining steel sections is particularly significant.
Without welding, the aircraft industry would never be able to make enormous demands for planes, rockets and missiles. Rapid progress in the exploration of outer space has been made possible by new methods and knowledge of welding metallurgy.
Probably the most sizable contribution welding has made to society is the manufacturer of special products for household use. Welding processes are employed in the construction of such items as television sets, refrigerators, kitchen cabinets, dishwashers, and other similar products.
As a means of fabrication, welding has proven fast, dependable, and flexible. It lowers production costs by simplifying design and eliminate costly patterns and machining operations.
Welding is used extensively for the manufacture and repair of farm equipment, mining and oil machinery, machine tools, jigs and fixtures, and in the construction of boilers, furnaces, and railway cars. With improved techniques for adding new metal too worn parts, welding has also resulted in economy for highly competitive industries. Call us with your welding questions at 801-823-1314
In tooling– up for a new model automobile, A manufacturer may spend upwards of a million dollars on welding equipment. Most structures you see in the world today, things such as bridges, commercial buildings, office structures, parking garages, airplanes and ships are all created through welding; and where noise from construction is not ideal or safe,, the value of welding as the chief means of joining steel sections is particularly significant.
Without welding, the aircraft industry would never be able to make enormous demands for planes, rockets and missiles. Rapid progress in the exploration of outer space has been made possible by new methods and knowledge of welding metallurgy.
Probably the most sizable contribution welding has made to society is the manufacturer of special products for household use. Welding processes are employed in the construction of such items as television sets, refrigerators, kitchen cabinets, dishwashers, and other similar products.
As a means of fabrication, welding has proven fast, dependable, and flexible. It lowers production costs by simplifying design and eliminate costly patterns and machining operations.
Welding is used extensively for the manufacture and repair of farm equipment, mining and oil machinery, machine tools, jigs and fixtures, and in the construction of boilers, furnaces, and railway cars. With improved techniques for adding new metal too worn parts, welding has also resulted in economy for highly competitive industries. Call us with your welding questions at 801-823-1314
Layton Welding Pros is well versed in the many methods of welding in use today; gas, ark, and resistance dominate the field. We can best explain these processes from the standpoint of the operator’s duties.
The principal duty of the operator employing gas welding equipment is to control and direct the heat on the edge of metal to be joined, while applying a suitable metal filler to the molten pool. The intense heat is obtained from the combustion of gas, usually acetylene and oxygen. For this reason, in this process is also called oxyacetylene welding.
The skills required for this job or adjustment of the regulators, selection of proper tips and Rod, preparation of the metal edges to be joined, and the technique of flaming rod manipulation. The gas well there may also be called upon to do flame cutting with a cutting attachment and next her oxygen pressure. Flame or oxygen cutting his employee to come various metals to a desired size or shape, or to remove excess middle from castings.
The arc welder performs his skill by first striking arc at the starting point of a weld and maintaining this electric arc to fuse the metal joints. The molten metal from the tip of the electrode is then deposited in the joint and, together with a molten metal of the edges, solidifies to form a sound and uniform connection. The arc welding operator is expected to select the proper electrodes for the job and to be able to will any type seen using the technique required due to the position of the work, i.e.., overhead, horizontal, etc.
In the field of arc welding, the gas– shielded park processes are rapidly gaining recognition as being superior to the standard metallic bark. With gas– shielded ark of the ark and molten puddle are covered by shield shield of gas. The shield of gas prevents atmospheric contamination, thereby producing a sound or wealth. The processes known as TIG and MIG welding are either manually or automatically operated.
Resistance welding operators are responsible for the control of machines which fuse metals together by heat and pressure. If two pieces of metal art placed between electrodes which become conductors for a low voltage and high amperage current, the materials will, because of their own resistance, become heated to a plastic, or semi– solid, state. To complete the wealth, the current is interrupted before pressure is released, thereby allowing the weld Metal too cool for solid strength.
The operator’s duty is to properly adjusted machine current, pressure, and feed settings suitable for the material to be welded. Usually will be responsible for the alignment of parks to be assembled and for controlling the passage of parts through the welding machine.
Layton Welding Pros knows how to do it all. We understand that there are no hard and fast rules which govern the type of welding that is to be used for a particular job. In general, the controlling factors are kinds of metal to be joined, costs involved, nature of products to be fabricated, and production techniques.
Some jobs are more easily accomplished by the oxyacetylene welding process whereas others are more easily done by means of arc welding. Because of its flexibility and mobility, it is widely used in maintenance and repair work. Dwelling unit can be moved on a two Will card for transported by trucks to any field job where breakdowns occur. Its adaptability makes the oxyacetylene process usually suitable for welding, praising, cutting, and heat treating.
The chief advantage of arc welding is the rapidity with which a high-quality wealth can be made at a relatively low cost. Specific applications of this process are found in the manufacture of structural steel for buildings, bridges, and machinery.
Since the development of gas shielded art processes, there are indications that they will be used extensively in the future in welding all types of ferrous and nonferrous metals in both gauge for plate thickness.
Resistance welding is primarily a production welding process. It is a specially designed for the mass production of domestic goods, automobile bodies, electrical equipment, hardware, etc. Probably the outstanding characteristic of this type of welding is its adaptability to rapid infusion of seems.
The widespread use of welding in American industry provides a constant source of employment for both skilled and semi – skilled operators. All of the welding technicians with your Layton Welding experts have earned their experience on the job, as well as in extensive training and studies. Beyond just knowing how to weld, our weld techs are trained in knowledge of the properties of metals, blue print reading, welding symbols, and the mastery of welding techniques are generally required.
A course in welding followed by several years of experience is the usual procedure by which a welder learns the trait. A beginner starts on simple production jobs and gradually works up to higher levels of skill as his experience and ability improved. Before being assigned to work where the quality and strength of the welder critical, I wonder maybe required to passive certification test given by the employer or some other inspection authority.
Skilled welders may, by promotion, become inspectors, foreman, or supervisors. There are unlimited opportunities for advancement in industry for those who work hard, learn about all aspects of the welding industry, and prove their knowledge on the job.
The principal duty of the operator employing gas welding equipment is to control and direct the heat on the edge of metal to be joined, while applying a suitable metal filler to the molten pool. The intense heat is obtained from the combustion of gas, usually acetylene and oxygen. For this reason, in this process is also called oxyacetylene welding.
The skills required for this job or adjustment of the regulators, selection of proper tips and Rod, preparation of the metal edges to be joined, and the technique of flaming rod manipulation. The gas well there may also be called upon to do flame cutting with a cutting attachment and next her oxygen pressure. Flame or oxygen cutting his employee to come various metals to a desired size or shape, or to remove excess middle from castings.
The arc welder performs his skill by first striking arc at the starting point of a weld and maintaining this electric arc to fuse the metal joints. The molten metal from the tip of the electrode is then deposited in the joint and, together with a molten metal of the edges, solidifies to form a sound and uniform connection. The arc welding operator is expected to select the proper electrodes for the job and to be able to will any type seen using the technique required due to the position of the work, i.e.., overhead, horizontal, etc.
In the field of arc welding, the gas– shielded park processes are rapidly gaining recognition as being superior to the standard metallic bark. With gas– shielded ark of the ark and molten puddle are covered by shield shield of gas. The shield of gas prevents atmospheric contamination, thereby producing a sound or wealth. The processes known as TIG and MIG welding are either manually or automatically operated.
Resistance welding operators are responsible for the control of machines which fuse metals together by heat and pressure. If two pieces of metal art placed between electrodes which become conductors for a low voltage and high amperage current, the materials will, because of their own resistance, become heated to a plastic, or semi– solid, state. To complete the wealth, the current is interrupted before pressure is released, thereby allowing the weld Metal too cool for solid strength.
The operator’s duty is to properly adjusted machine current, pressure, and feed settings suitable for the material to be welded. Usually will be responsible for the alignment of parks to be assembled and for controlling the passage of parts through the welding machine.
Layton Welding Pros knows how to do it all. We understand that there are no hard and fast rules which govern the type of welding that is to be used for a particular job. In general, the controlling factors are kinds of metal to be joined, costs involved, nature of products to be fabricated, and production techniques.
Some jobs are more easily accomplished by the oxyacetylene welding process whereas others are more easily done by means of arc welding. Because of its flexibility and mobility, it is widely used in maintenance and repair work. Dwelling unit can be moved on a two Will card for transported by trucks to any field job where breakdowns occur. Its adaptability makes the oxyacetylene process usually suitable for welding, praising, cutting, and heat treating.
The chief advantage of arc welding is the rapidity with which a high-quality wealth can be made at a relatively low cost. Specific applications of this process are found in the manufacture of structural steel for buildings, bridges, and machinery.
Since the development of gas shielded art processes, there are indications that they will be used extensively in the future in welding all types of ferrous and nonferrous metals in both gauge for plate thickness.
Resistance welding is primarily a production welding process. It is a specially designed for the mass production of domestic goods, automobile bodies, electrical equipment, hardware, etc. Probably the outstanding characteristic of this type of welding is its adaptability to rapid infusion of seems.
The widespread use of welding in American industry provides a constant source of employment for both skilled and semi – skilled operators. All of the welding technicians with your Layton Welding experts have earned their experience on the job, as well as in extensive training and studies. Beyond just knowing how to weld, our weld techs are trained in knowledge of the properties of metals, blue print reading, welding symbols, and the mastery of welding techniques are generally required.
A course in welding followed by several years of experience is the usual procedure by which a welder learns the trait. A beginner starts on simple production jobs and gradually works up to higher levels of skill as his experience and ability improved. Before being assigned to work where the quality and strength of the welder critical, I wonder maybe required to passive certification test given by the employer or some other inspection authority.
Skilled welders may, by promotion, become inspectors, foreman, or supervisors. There are unlimited opportunities for advancement in industry for those who work hard, learn about all aspects of the welding industry, and prove their knowledge on the job.
Call us today at 801-823-1314
Some Facts About Welding and Metal Fabrication
At Layton Welding Pros we like to help make sure you are well aware of what we do and how we do it. We like to educate you so you can understand the work we are doing for you. That means it would help to understand some of the basics of metal work.
Mechanical properties are measures of how materials behave under applied lives. Another way of saying this is how strong is a metal when it comes in contact with one or more forces. If you know the strength properties of a metal, you can build a structure that is safe and sound. Likewise, when a welding is the strength of his wealth as compared with the base metal, you can produce a weldment that is strong enough to do the job. Hand strength is the ability of the metal to withstand loads (forces) without breaking down.
In metal and welding, the different types of properties for a metal’s strength are referred to as comprehensive strength, tensile strength, sheer strength, fatigue strength, bending strength, portional strength, and impact strength. An explanation of these terms as well as other terms that are associated with mechanical properties are included in the following paragraphs.
Mechanical properties are measures of how materials behave under applied lives. Another way of saying this is how strong is a metal when it comes in contact with one or more forces. If you know the strength properties of a metal, you can build a structure that is safe and sound. Likewise, when a welding is the strength of his wealth as compared with the base metal, you can produce a weldment that is strong enough to do the job. Hand strength is the ability of the metal to withstand loads (forces) without breaking down.
In metal and welding, the different types of properties for a metal’s strength are referred to as comprehensive strength, tensile strength, sheer strength, fatigue strength, bending strength, portional strength, and impact strength. An explanation of these terms as well as other terms that are associated with mechanical properties are included in the following paragraphs.
- Stress is the internal resistance in some material offers to being deformed and is measured in terms of the applied load.
- Strain is the deformation that results from a stress and is expressed in terms of the amount of deformation per inch.
- Elasticity is the ability of the metal to return to its original shape after being elongated or distorted, when the forces are released. If the rubber stretch, it will return to its original shape after you letting go. Whatever, if the rubbers pulled beyond a certain point, it will break. Metals with elastic properties react the same way.
- Elastic limit is the last point at which material maybe stretched and still return to its undeformed condition upon release of the stress.
- Modulus of elasticity is the ratio of stress to strain with an elastic limit. The less a material deforms under a given stress the higher the modules of elasticity. By checking the modulus of elasticity the comparative stiffness of different materials can readily be ascertained. Rigidity or stiffness is very important for many machine and structural applications.
- Tensile strength is that property which resist forces acting to pull the medal apart. It is one of the more important factors in the evaluation of the metal.
- Compressive strength is the ability of a material to resist being crushed. Compression is the opposite of tension with respect to the direction of the applied load. Most metals have high tensile strength and high compressive strength. However, brittle material such as cast iron have high compressive strength but only moderate tensile strength.
- Bending strength is that quality which resist forces from causing a member to bend or deflect in the direction in which the load is applied. Actually a bending stress is a combination of tensile and compressive stresses.
- Torsional strength is the ability of the metal to withstand forces that caused remember to twist.
- Shear strength refers to how well a member can withstand to equal forces acting in opposite directions.
- Fatigue strength is the property of the material to resist various kinds of rapidly alternating stresses. Example, a piston rod or an actual undergoes a complete reversal of stresses from tension to compression. Bending a piece of wire back and forth until it breaks is another example of fatigue strength.
- Impact strength is the ability of the metal to resist loads that are applied suddenly and often at high velocity. The higher the impact strength of the metal the greater the energy required to break it. Impact strength maybe seriously affected by welding since it is one of the most structure sensitive properties.
- Ductility refers to the ability of metal to stretch, bang, or twist without breaking or cracking. A metal having high ductility, such us copper or sapphire, will fail or break gradually as a load on it is increased. A medal of low ductility, such as cast-iron, fell suddenly by cracking when subjected to a heavy load.
- Hardness is that property in steel which resist indentation or penetration. Harness is usually expressed in terms of the area of an indentation made by a special ball under a standard load, or the depth of the special indenture under a specific load.
- Cryogenic properties of metals represent behavior characteristics under stress and environments a very low temperatures. In addition to being sensitive to crystal structure and processing conditions, metals are also sensitive to low and high temperatures. Some hours which perform satisfactorily at room temperature may felt completely at lower high temperatures. The changes from ductile to bridal failure occurs rather some yellow temperatures.
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