Tag: metalworking

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Modern-Day Metalworking: Examining Cutting Tools Technology

Metalworking has grown by leaps and bounds with the latest in manufacturing technology. Cutting tools and machining processes have evolved to the point where industrial equipment can be made faster and at lesser expense than ever before. These end products are used in every facet of life from the home to the office and in essentially every industry and market. The end result of these advances is to make the manufacturing sector competitive in the global marketplace by providing precision products at the lowest price.
New technologies focus on refining overall production processes. The best way to do so is to combine multiple process steps into one machining operation. Every time materials have to be switched between machines, there is lost time due to loading and unloading along with repositioning and workholding. New working materials and processes helps accomplish the reduction in working steps required for precision products.
Hard Turning And Milling Operations
A common bottleneck in working with hard metals was the need for intermediate working steps. For example, if the cutting tools in use were not capable of working a hard metal, that metal would have to be worked and then heat treated to its final hardness, requiring additional finishing and grinding steps afterward. For example, industrial equipment made from high hardness materials would be worked in an annealed condition and then would be heat treated, requiring further grinding and finishing.
Today’s hard turning machine steps are able to avoid all of that intermediate work. Specialized cutting tools made from polycrystalline cubic boron nitride can turn and mill hardened materials without an annealing step to lower hardness. This particular metalworking breakthrough imparts a number of highly desirable properties into machine components: high toughness, chemical stability, high hardness and high thermal conductivity along with a low thermal expansion coefficient. By removing entire working steps, finished products can come off the line cheaper, faster, and with fewer flaws or off specification rejects.
Hard turning can also supplant grinding in some cases. When this applies, hard turning runs faster than grinding, again lowering both run times and costs.
High Speed Cutting Tools
Many high speed processes were reserved for softer metals as well, such as aluminum. The same issue with annealing and heat treatment also applied for this type of metalworking. But just like turning, new high speed cutting tools can handle harder metals without the intermediate process steps. Again, today’s technology is focused on reducing the per unit cost of all types of industrial equipment.
It might seem counterintuitive, but speeding up metalworking processes actually generates high precision products. Each new step introduces a chance for error, either in part due to human mistakes, improper workholding, machines working outside of specifications, and over working. The ability to cut out intermediate work has a noticeable impact on quality control.
Safety And Reliability – Dry Machining
The polycrystalline cubic boron nitride material’s properties also preclude the need for cooling fluids. This is accomplished due to the ability of the polycrystalline cubic boron …

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Metalworking Products Used in the Medical Supply Industry

The medical supply industry is about 12,000 companies strong with combined annual revenue of approximately $78 billion. These companies produce instruments, apparatus, and the medical supplies that are used in hospitals and doctor’s offices. Major products range from surgical and medicinal instruments like syringes, hypodermic needles, and catheters to surgical appliances and supplies such as dressings, sutures, and dental devices. The industry is also responsible for the production of lab equipment and furniture as well as ophthalmic goods (glasses and contact lenses).
Industrial supplies in this market are all specifically ordered for their unique properties to support the production of clean and safe medical supplies for use in saving lives and treating ailments. A CAD library of extensive models and blueprints ensures high quality and precision manufacturing to meet specifications with an extremely low failure rate.
Material Requirements
The number one requirement for metalworking products used for the medical supply supply and demand graph maker is sterility. Beyond the workers themselves utilizing facemasks and latex gloves, the machinery itself must be kept clean and free of germs and bacteria. The end products of the medical supply industrial process must also conform to this requirement, and will often be a polished type of steel or smooth plastic for optimal use in a sterile environment.
Because of this special requirement, most raw materials and industrial supplies are made of stainless steel to reduce bacteria growth and for easily cleanable surfaces. Many raw material stocks, such as flat and bar stock, shims, and rods, and heavy-duty workholding will be stainless steel. In applications where stainless steel is too heavy or expensive, Delrin is used as a substitute. It is a Dupont developed plastic that is high-strength and low weight with great wear resistance and low friction. Delrin is also approved by the FDA for food and pharmaceutical work for being bacteria resistant and easy to clean. Carbon steel is only used in applications where a nickel or zinc coating can be applied for corrosion resistance as rust particles in medical supplies can lead to tetanus infections. Tungsten carbide is also a material in the manufacturing process, but it is usually utilized as a jig or locator, rather than a material component of the industrial supplies.
Metalworking in Production
The bulk of the medical supply industry focuses on medical instruments such as disposable syringes. The production of syringes, as a prime example, is done via assembly line. Conveyor belts, chain link drive systems, and motors are the main industrial supplies used in mass assembly and are similar to most other manufacturing processes. Leveling devices and vibration control keep machinery stable and their operation precise while roller rails and beds move finished products to packaging operations.
During the actual manufacturing process, the metal syringe tips are produced from molten or softened surgical or stainless steel. The hot metal is drawn through a secure die block and then rolled into a continuous, hollow wire and cut in a blanking die to form the needle head. The …

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Metal

Modern-Day Metalworking: Examining Cutting Tools Technology

Metalworking has grown by leaps and bounds with the latest in manufacturing technology. Cutting tools and machining processes have evolved to the point where industrial equipment can be made faster and at lesser expense than ever before. These end products are used in every facet of life from the home to the office and in essentially every industry and market. The end result of these advances is to make the manufacturing sector competitive in the global marketplace by providing precision products at the lowest price.
New technologies focus on refining overall production processes. The best way to do so is to combine multiple process steps into one machining operation. Every time materials have to be switched between machines, there is lost time due to loading and unloading along with repositioning and workholding. New working materials and processes helps accomplish the reduction in working steps required for precision products.
Hard Turning And Milling Operations
A common bottleneck in working with hard metals was the need for intermediate working steps. For example, if the cutting tools in use were not capable of working a hard metal, that metal would have to be worked and then heat treated to its final hardness, requiring additional finishing and grinding steps afterward. For example, industrial equipment made from high hardness materials would be worked in an annealed condition and then would be heat treated, requiring further grinding and finishing.
Today’s hard turning machine steps are able to avoid all of that intermediate work. Specialized cutting tools made from polycrystalline cubic boron nitride can turn and mill hardened materials without an annealing step to lower hardness. This particular metalworking breakthrough imparts a number of highly desirable properties into machine components: high toughness, chemical stability, high hardness and high thermal conductivity along with a low thermal expansion coefficient. By removing entire working steps, finished products can come off the line cheaper, faster, and with fewer flaws or off specification rejects.
Hard turning can also supplant grinding in some cases. When this applies, hard turning runs faster than grinding, again lowering both run times and costs.
High Speed Cutting Tools
Many high speed processes were reserved for softer metals as well, such as aluminum. The same issue with annealing and heat treatment also applied for this type of metalworking. But just like turning, new high speed cutting tools can handle harder metals without the intermediate process steps. Again, today’s technology is focused on reducing the per unit cost of all types of industrial equipment.
It might seem counterintuitive, but speeding up metalworking processes actually generates high precision products. Each new step introduces a chance for error, either in part due to human infor industry verticals mistakes, improper workholding, machines working outside of specifications, and over working. The ability to cut out intermediate work has a noticeable impact on quality control.
Safety And Reliability – Dry Machining
The polycrystalline cubic boron nitride material’s properties also preclude the need for cooling fluids. This is accomplished due to the ability of the …

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