Investing in precision machining helps industries in the following ways.
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Adopting precision machining helps industries move into an accelerated full-scale production mode. Most contract precision machining services use CNC machining technology that demonstrates advanced engineering capabilities, which speeds up the production process that makes supply chain management easier with fewer disruptions.
The alternative to precision machining is human machining. Because of the exact dimensions required in precision components, the labor cost for their production is huge. Also, there is significant material waste that emerges at the end.
Alternatively, precision machining can save significant labor and material costs involved in production. Though investing in CNC machines involves a high expenditure, it is a single-time investment that helps reduce material waste and overall manufacturing expenses in the long run.
A further easier option is outsourcing the automated precision machining process to contract manufacturing companies. It helps to complete the task on a lower budget.
Precision machined components require to be manufactured with correct specifications to allow the production of the end product with high quality. For instance, let us consider the automotive industry. There is high precision involved in the manufacture of railway components, parts in a car, and other transport equipment. Without the high precision of parts used in automobiles, the safety and performance of the entire vehicle may go for a toss. Hence, precision CNC machining is more reliable than human engineering in this industry, as it leads to an increased level of accuracy that attributes a competitive edge to the organization in the market.
Medicine is another field that relies largely on precision CNC machining. The industry needs electronic equipment of high precision, which is crucial in diagnosing, treating, and curing various health conditions. The innovative technology of precision machines helps to increase the accuracy in the production of the raw components of equipment used in this field.
Businesses can find room for innovation in their product design by hiring skilled contract manufacturers to manufacture precision-machined components.
Precision CNC machining is also known as subtractive manufacturing as it involves the removal of material from the manufactured precision machined component to produce customized end products. Most industries require precision parts with particular dimensions to reshape them into different end products. While it can be laborious and expensive to manufacture individual parts separately or manually, precision machine investment allows custom machining solutions of the components to be used for manufacturing different products.
The textile industry is a good example in this context. High-pressure water jet cutting equipment, laser cutting range equipment, and other industrial CNC machines cover most textile industry needs.
Precision CNC machining help to manufacture components of consistent dimensions and quality to be used in producing the final end products in a bulk quantity. Goods produced otherwise may not exhibit this consistency.
Let us consider the use of precision machining in the aerospace industry. A lot of products need to be produced repeatedly with high accuracy and quality for the manufacture of aircraft, and any deviation can cause safety concerns to travelers. Precision machining can help in the manufacture, fabricating, and finishing of these base components with the best quality.
Some industries pose several hazards for workers. Safety standards should be considerably high to avoid any injuries or mishaps to the workers. For instance, the oil and gas industry requires the creation of specific products at a designated site, and it is a hazardous task. The use of precision machines helps to produce custom products safely, which is why contract manufacturing companies use them.
One of the benefits of precision machining includes the flexibility it provides in the manufacturing niche. It is easier for companies to shift from sample production to bulk production according to the fluctuation in market demand for the desired end product. Precision machining also allows the manufacture of functional prototypes, which increases the reliability of the organization from a stakeholder viewpoint.
Outsourcing the manufacture of precision machined components for your business to reliable contract manufacturers can allow more flexibility in your business to scale up or scale down the production as needed.
Precision CNC machining improvises the existing factory workflow by saving a lot of manual effort that goes into performing minute tasks. The production team can better focus on aspects such as product design, testing, and launch by automating some parts of the production workflow through CNC machines.
Due to its numerous benefits, the global precision machining market revenue is expected to grow to USD 268.30 billion towards the end of , as per the Market Research Report of . However, the feared recession and the COVID-19 impact could cause a revision in the estimated figures.
Finding trustworthy contract manufacturers is crucial to the manufacturing need of every business because manufacture is the stage where things can turn out to be either extremely well or go completely wrong. Violin Technologies can be your trusted contract manufacturer for the following reasons.
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Precision machined parts are fabricated parts that require intricate features like holes, threads, tapers, or grooves and precise specifications that must fit perfectly with other components. These machined parts often require excellent precision for proper fit and function of the assembly. Hence, experts recommend using specialized equipment to meet highly tight tolerance and ensure fewer errors.
Moreover, precision machined parts is a common term manufacturers employ to sell products to potential customers and elevate customers’ perception of their capabilities. It would help to consider the meanings of accuracy and precision to understand better what precision machined parts truly are. The two terms differ even though both are related to quality and are mostly used interchangeably.
Accuracy refers to how close to the target values a measurement is—for instance, the proximity of the dimension to the specified measurement. A measurement is highly accurate when the measured value doesn’t deviate from the desired value. Conversely, precision in CNC machining is the ability to replicate consistent features across several machined units. Precision represents the proximity/closeness degree of two or more measurements of machined parts.
A CNC machine shop can meet your dimensional requirements for multiple parts of the same design when they can fulfil your precision requirements. Besides, a precision machine shop can meet precision and accuracy requirements with a strong quality foundation. A precision-machined parts supplier must possess cutting-edge equipment and advanced processes to achieve precision machining. Such companies/businesses must invest considerably in quality control or systems.
Hence, it would be best to contract a supplier with the right resources to meet accuracy and precision requirements. Typical elements for a strong quality control and management system at a precision CNC shop include:
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For several reasons, precision machined components are found useful in different industries where quality, efficiency, and accuracy are paramount. Some of these significant advantages include:
Since precision machining allows for tighter tolerances, machined parts possess high accuracy and consistency levels critical to automotive, medical, and aerospace applications. Precision-machined parts are often consistent from one batch to another, resulting in fewer errors and variations.
Precision-machined parts are mostly cost-efficient because the machining process’s high precision prevents material wastage. Over time, precision machining helps manufacturers minimize overall production costs since the process’s accuracy reduces the number of defective parts.
Unlike parts produced with processes like casting or welding, precision machined components retain their durability and strength because the machining process doesn’t alter their material properties. More particularly, precision-machined parts exhibit excellent surface finishes with fewer defects without requiring further finishing processes.
Precision machined components last longer since they have a better surface finish, reducing wear and tear in working environments. These parts often require less frequent maintenance or replacement. Precision parts perform better in high-demand applications because of their superior quality and accuracy.
Manufacturers can easily customize precision machined parts according to specific requirements, satisfying the application’s requirements or making design changes without sacrificing quality. Customized precision parts support innovation in various cutting-edge sectors since modern technologies like electronic or bodily implants require precise and accurately machined parts that meet tight tolerances.
Manufacturers employ different machining equipment and tools to deliver quality precision machined components. While some precision machining processes involve a single CNC machine, others involve multiple machines. We’ll explore some of the machines used to create precision machined parts in this section:
CNC mills are versatile machines that reshape stationary workpieces with a multi-point rotary cutting tool. They can create various shapes, mainly face-milled and peripheral-milled features. Flat surfaces and shallow cavities are typical face-milled features, while deeper cavities, such as slots and threads, are standard peripheral-milled features. Precision CNC mills are ideal for machining rectangular – and square-shaped components with different features.
Drilling machines make cylindrical holes in raw materials with rotating drill bits. These drill bits are multi-point CNC tools that remove chips from workpieces to ensure advanced hole machining. Typical drill bits used for machining precision parts include peck drills, spotting drills, chucking reamers, drill presses, and screw machine drills.
Precision grinding machines are another common tool manufacturers use to create precision machined parts with smooth surface roughness requirements. These CNC grinders offer remarkable accuracy. While CNC mills and lathes first create workpieces with rough surfaces, precision grinders provide final surface finishing that meets the application requirements.
CNC lathes can rotate a blank while the cutting tools remain stationed during machining. The cutters are in linear motions along the revolving bar stock, removing material around the circumferences to achieve the desired features and diameter. CNC Swiss lathes are typical CNC lathes that can rotate workpieces and feed them axially into the cutting tool through guide bushings. These machines allow the machining of precision parts with tighter tolerance since they offer better support for workpieces while the cutting tools shape the bar stock.
CNC turning machines add internal and external features like broaches, bores, tapings, slots, and reamed and drilled holes on precision parts. Bolts, poppets, screws, and shafts are standard precision machined components fabricated with CNC turning machines.
These precision machines use high-powered, computer-controlled plasma torches to cut material into desired geometries. Plasma cutters deliver torches of over 50,000 °F. Hence, these tools make cuts in workpieces since they can melt quickly. However, plasma-cutting machines are mainly compatible with electrically conductive materials like brass, aluminum, copper, and stainless steel.
These machines cut materials into desired shapes with controlled electrical sparks. This approach is sometimes called spark eroding, wire burning, spark machining, or die sinking. The machinist places the workpiece under an electrode wire during the EDM process. Then, the programmed machine produces electrical discharges from the wire, generating extreme heat that melts the material and flushes it with an electrolytic fluid to achieve the intended shape and feature.
Diverse industries and applications embrace precision machining as the optimal choice when parts play functional roles or must be assembled with other components. Here are typical applications of precision machined components in different industries:
Many manufacturers use metals and non-metal materials for precision machined parts. However, ensure the properties of the sourced materials meet the specifications of your applications to guarantee reliability and peak performance. Examples of these CNC materials include:
Precision CNC machining contributes significantly to modern manufacturing, providing precise and highly accurate parts and components that meet stringent industry standards. Over the years, recent technological advancements in precision machining and specific future trends have reshaped the designing and machining of complex parts. Here are advancements that apply to precision CNC machining and its future:
Carbide and titanium are commonly used CNC tooling coatings that help mitigate wear resistance and increase the hardness of CNC tools’ surfaces. Coatings with incorporated nanolayers or nanocomposites are recent enhancements that help improve the cutting tool’s friction coefficient and wear resistance. Moreover, these nanomaterial coatings help prevent the coating’s crack propagation, which is comprised of the tool’s base material.
Since thicker coating forms more rounded tool edges, which affects the cutting ability for materials such as aluminum and stainless steel, product engineers have achieved thinner coatings with the same hardness and wear resistance properties due to the advancements in coating technology.
Physical vapor deposition is one of the new coating technologies that allows a homogenous, thin coating with exceptional mechanical properties. Machinists use different coating materials like nitrogen, titanium, and aluminum combination (TiAlN) to execute these methods.
Precision machining has witnessed significant innovation in tooling, materials, geometries, and coatings, allowing for optimized efficiency and precision. This tooling durability and extensive capabilities of precision machining help reduce the possibility of omitting precision requirements because of tool wear and failure.
Robotics, Artificial Intelligence (AI) Machining, and simulation technologies are recent trends in every industry. Precision CNC machining has benefited extensively from advanced technology in various ways, such that:
Precision-machined parts are fundamental parts of critical systems in different industries. Their ability to meet tight tolerance ranges ensures high accuracy, performance, consistency, and reliability in complex systems. Although these precision components facilitate the smooth operation of different equipment and machinery to reduce failure risks and improve safety and efficiency, their precise manufacturing ensures less waste and machining costs and promotes innovation in advanced technologies.
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