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New Project January 2018 - CNC PP Parts In January 2018, we have many new orders for CNC prototyping and rapid tooling projects. One of them are some nicely made CNC parts in white PP block material. Below you can see a picture of the part. WHITE PP CNC MACHINING This part is made fully by high speed CNC turning and milling. There are many undercuts and complex features at the two ends of this part. As a reliable rapid prototyping services provider in China,AUKING has done a great job!

We specialise in making nice rapid prototypes. When a client requests a quotation from us, we will offer the pricing and lead time within 24 hours. Our team is responsive and the service is the most professional in China. Recently, we have made some very nice small CNC parts. The customer wants a very short delivery time and strict tolerances. We quoted the job with 6 parts in one day and started the project the other day. All parts are completed in 10 days. A final inspection is applied before shipping and all parts pass. We then ship it via DHL express. The customer received the parts in 2 days after and he is very happy with our quality. If you are looking for some nice rapid prototypes done, feel free to contact us today and send us an emai

When you order a model from us, you may need a specific surface finish for your parts. At AUKING INDUSTRY, we offer a variety of surface treatments for different plastic and metal prototypes. [As machined" or [Machined finish" is most common finish for CNC machined components. It is applied for functional tested or invisible prototypes, which has no requirement for surface finish. There will be machining marks left on the surface. When you touch it, it is smooth but you can still feel the tooling marks. Its roughness is approximately ranged from Ra3.2 to Ra.08. We can then apply bead blasting to it to remove the burrs and cover the tooling marks. If you prefer a smoother surface ready for painting, we can do the sanding/polishing to remove all the machining marks. All the painted parts require this process first for primer coating and it can guarantee high quality painted surface afterwards. We can polish the surface using sand papers from 400 grits up to 1500 grits or even finer. For the mirror polished models, we usually sand it to 2000 grits then we start to use 3M polishing chemicals for buffing. For black plastic prototypes, the surface would turn to a bit grey/white after sanding. For Nylon or glass filled plastic materials, there will be burrs after sanding. We offer mirror-polished prototypes in stainless steel, aluminum, brass and PMMA (Acrylic) to the highest standard. It is a very time-consuming process, which requires a lot of labor work. High polished CNC machined PMMA and vapor polished PC prototypes are transparent. We also use these clear models for vacuum casting as master patterns. All kinds of materials can be painted in matte, satin and glossy finish according to your requirement of pantone reference and Mold-Tech texture. As we are based in Dongguan, it is very convenient to get the other outsourced post surface treatments such as anodizing, black coating, chrome and nickel plating, powder coating, alochrome (chromate conversion), PTFE coating. We have been working with these suppliers for years so we can have good control on the quality and price. We accept quantities from large scale to just 1 off prototype if required.

6 Stars Quality We specialise in making nice rapid prototypes. When a client requests a quotation from us, we will offer the pricing and lead time within 24 hours. Our team is responsive and the service is the most professional in China. Recently, we have made some very nice small CNC parts. The customer wants a very short delivery time and strict tolerances. We quoted the job with 6 parts in one day and started the project the other day. All parts are completed in 10 days. A final inspection is applied before shipping and all parts pass. We then ship it via DHL express. The customer received the parts in 2 days after and he is very happy with our quality. If you are looking for some nice rapid prototypes done, feel free to contact us today and send us an email at alex@auking.net

CNC Prototyping is a hot service nowadays, which is needed by customers all over the world. Then where to find a reliable supplier? Today we are going to share you the latest top 5 PPC competitors for CNC prototyping providers on Google.com in November, 2017: 1. Proto Labs: Quick-turn CNC machining for parts in as fast as 1 day https://www.protolabs.com/services/cnc-machining/ Quick-turn CNC machining works best for prototyping, form and fit testing, jigs and fixtures, and functional components for end-use applications. We have ... 2. CNC Machining | 3D Systems https://www.3dsystems.com/on-demand-manufacturing/cnc-machining The main benefit of the process is that CNC will produce parts that can replace the additive manufactured prototypes with true production grade materials. 3. CNC Machining | Prototyping services | SLA Prototypes | Schmit ... schmitprototypes.com/cnc-machining/ Schmit Prototypes' CNC machining capabilities enable us to produce the finest, highly accurate parts, full-functioning engineering prototypes, piece parts and ... 4. CNC Machining Service - Star Rapid https://www.starrapid.com/services/cnc-machined-parts/ We use CNC machining not only to manufacture parts and prototypes but also to make mold tools, which can be used for our plastic injection molding or ... 5.cnc machining service ,cnc machining /cnc prototyping /cnc machined parts /cnc milled parts /cnc turned parts /cnc milling /cnc turning you can visit www.auking.net

Gear Box Prototype Process: CNC Machining Material: Aluminum 6061 T6 Quantity: 2 pieces Surface: As Milled Tight Tolerance: 0 - 0.021mm Part Size: 140x120x60mm Lead Time: 4 days Unit Part Price: US$180 This part is used for the gear box as a protection cover. All the features are made by CNC machining without EDM. Surface roughness is Ra1.2. From order to shipping we only need 4 calendar days for this part. This part is milled by a 3-axis CNC machine. We have used Master CAM for programming. Material was inspected by OES machine by our supplier and we can provide certificate if requried. After production, the part will be checked thoroughly and packed carefully inside a hard carton box. Parts are shipped via DHL to Europe. Customer was very happy with the result and will be placing more orders to us in future.

Auking Manufacturing Limited is a rapid prototyping company in China since 2008. We are specialized in providing rapid prototyping services, CNC prototyping, prototype machining, CNC machining service, prototype tool, custom CNC parts, low volume CNC, etc. As a rapid prototyping China expert, we are now going to share the top 10 related keywords of CNC Prototyping with you: Keyword Volume KD CPC (USD) rapid prototype machining 30 62.58 32.54 CNC machined 110 62.76 28.42 CNC machining prototype service 70 38.87 26.67 CNC machining services 480 44.03 26.1 online CNC quote 90 36.64 24.75 prototype machining 110 39.81 24.12 prototypeCNC 10 39.75 21.46 prototype machining services 20 37.39 20.7 CNC machine services 170 41.1 20.61 prototype CNC machining 10 43.57 20.57 We can know from above statistics that most of the keywords of CNC Prototyping are not hard to optimize. First, most of the search volumes of the 10 keywords are not too many, just 4 of them over 100. Second, only 2 keywords` Difficulty are more than 50%, others are relatively low. However,all of them are with 20+ CPCs, which are quite expensive. Among the 10 related keywords of CNC Prototyping, I think the keyword `CNC machining services` is the best keyword for SEO. Because it has the most search volume and not high KD as well as the not expensive AD price.

All metal prototyping and CNC machined components will leave behind a pattern of characteristic scratches on the workpiece. These are caused by the type of cutting tool, how sharp it is and the material it`s made from. In some cases these scratches can be ignored but usually to make a truly [finished" part one or more secondary processes need to be applied. Here are the main 7 finishing processes and how they work. Sanding Sanding is simply a method for rubbing abrasive particles against the surface of a workpiece to create a random, non-linear surface texture. Different abrasive media are used, glued onto a backing paper or plate. The size of the cutting grains is refered to as [grit": the higher the grit number, the smaller and finer the particles are and hence the finer the surface finish they are able to achieve. Very coarse grits can remove a lot of material quickly, while finer grits are able to achieve a mirror polish. Water or some other lubricant is often used to flush material away and expose a fresh cutting surface. Sanding is especially useful for contoured or curved surfaces, but it`s not ideal for getting into very tight corners or pockets. Ultrasonic Polishing When making a tool for plastic injection molding or pressure die casting, it`s often necessary to give the inner cavity a fine polish to make a beautiful finished part. But tool steels are heat-treated and very hard, so polishing them is difficult. It`s also not easy to reach into holes, pockets, and other complex shapes. Ultrasonic polishing is used in these cases. A soft, fine-tipped tool is mounted onto an ultrasonic spindle that vibrates at 30KHz. In combination with an abrasive slurry medium, the tool tip does not actually touch the work surface but it induces a pressure wave that safely works away at the surface to create a fine polish. This technique works even on hardened steels and there`s little chance of damaging the workpiece. Rumbling and Tumbling Similar to sanding, both rumbling and tumbling use an abrasive media but in this case the sanding particles are [loose" and not fixed onto any backing paper. Depending on the workpiece and the type of finish desired, many different types of media can be used, including garnet, walnut shells, stones, or coarse sand. In tumbling, components are placed into a box or tub along with the abrasive particles, which is then rotated to mix everything together randomly. This is often used for [deburring", or to remove the sharp metal points left on a part`s edge after it`s been machined. Rumbling is much the same but the parts and abrasive are in a trough that is then vibrated to increase the cutting action. Magnetic Polishing Deep holes, pockets, or large interior chambers sometimes need to be highly polished in order to make a smooth surface with a low frictional resistance to air or liquid. But these areas can be difficult or impossible to reach by hand, so a different method is needed. Like with tumbling, metal parts can be put into a box or chamber that`s filled with magnetized particles. Using a focused magnetic field, these particles can then be directed to abrade away against the interior surface to achieve a fine polish. Sandblasting This is the process of treating the surface of a part by blasting it with an abrasive media under high pressure. The type of media used again will determine the quality of the resulting finish. Sandblasting, or blasting with a combination of air and water, can cover a large surface area quickly. It can also improve some of the mechanical properties of metal, by increasing fatigue strength and improving corrosion resistance through shot-peening. Lapping Lapping is a precision technique for achieving the highest degree of surface refinement and flatness. It involves a skilled craftsperson who uses a soft iron tool together with a mild abrasive slurry to slowly work the surface with random, light and non-linear motions by hand. This fills microscopic surface voids and flattens high spots. Machines can also be used for this process but it requires a very slow speed to avoid heating the workpiece. Filing A file is a piece of very hard steel that has a series of parallel grooves cut into it, which leave behind rows of sharp cutting teeth. Files are typically used by hand and, depending on how coarse the teeth are, can aggressively remove material and shape metal quickly. The surface finish is somewhat rough and imprecise and often needs additional sanding or polishing for good results. But files are still versatile, easy to use and can produce fine results in skilled hands. Which finishing process is right for you?

All metal prototyping and CNC machined components will leave behind a pattern of characteristic scratches on the workpiece. These are caused by the type of cutting tool, how sharp it is and the material it`s made from. In some cases these scratches can be ignored but usually to make a truly [finished" part one or more secondary processes need to be applied. Below are brief descriptions of the 7 main finishing processes to remove these scratches to make your final piece look perfect. 1. Sanding Sanding is simply a method for rubbing abrasive particles against the surface of a workpiece to create a random, non-linear surface texture. Different abrasive media are used, glued onto a backing paper or plate. The size of the cutting grains is refered to as [grit": the higher the grit number, the smaller and finer the particles are and hence the finer the surface finish they are able to achieve. Very coarse grits can remove a lot of material quickly, while finer grits are able to achieve a mirror polish. Water or some other lubricant is often used to flush material away and expose a fresh cutting surface. Sanding is especially useful for contoured or curved surfaces, but it`s not ideal for getting into very tight corners or pockets. When making a tool for plastic injection molding or pressure die casting, it`s often necessary to give the inner cavity a fine polish to make a beautiful finished part. But tool steels are heat-treated and very hard, so polishing them is difficult. It`s also not easy to reach into holes, pockets, and other complex shapes. Ultrasonic polishing is used in these cases. A soft, fine-tipped tool is mounted onto an ultrasonic spindle that vibrates at 30KHz. In combination with an abrasive slurry medium, the tool tip does not actually touch the work surface but it induces a pressure wave that safely works away at the surface to create a fine polish. This technique works even on hardened steels and there`s little chance of damaging the workpiece. This is the process of treating the surface of a part by blasting it with an abrasive media under high pressure. The type of media used again will determine the quality of the resulting finish. Sandblasting, or blasting with a combination of air and water, can cover a large surface area quickly. It can also improve some of the mechanical properties of metal, by increasing fatigue strength and improving corrosion resistance through shot-peening.

The world of product design continues to undergo some fundamental and even revolutionary changes. Product lifespans are getting shorter and so is the expected time to market. As a result, product developers are moving away from mass production and towards the world of low-volume manufacturing. The Top 4 Benefits Of Low-Volume Manufacturing 1) Low-volume manufacturing saves you money Most people think it`s obvious that manufacturing costs per unit will go down as volumes go up. So if you want to make cheap parts, you should make more of them, right? Not necessarily. If you`re going to mass produce parts – especially for pressure die casting or injection molding – then you must make a larger investment in more expensive tool steel, which in turn needs to be hardened and heat treated more carefully to withstand the rigors of large-scale production. With this in mind, low-volume manufacturing up to 100K pcs may be a great way for you to avoid a large investment while still producing high-quality parts. If the tool steel doesn`t need to be so durable then it will be more economical for you to purchase and faster for us to heat treat and machine. And, if your tool wears out during production and you need to have another one made, we do that at no extra charge! By comparison, when a factory is set up for large-scale production it carries a massive inventory of raw materials and equipment. To cover their investment, they usually ask you to place a large minimum order quantity. But a specialist in low-volume manufacturing doesn`t carry the same amount of overhead so we can process orders faster and more economically without demanding any minimum order. 2) Low-volume manufacturing ensures a faster time to market As you know, the pace of technological change is increasing all the time and with it the constant demand to innovate. This puts product developers under very real pressure to create new designs or modify existing ones and get them distributed as soon as possible. Being the first to market can be the difference between success and failure. Low-volume manufacturing is the ideal way for you to make enough volume to be sellable without creating an unsustainable burden of inventory. In addition, with optimized supply chains for low volumes, the lead times are short with parts ready to go in a matter of days or weeks – not months – so you`ll have a quicker route to market. 3) Low-volume manufacturing gives you design flexibility During production, you may find some aspect of the design that you want to modify. Low-volume manufacturing lets you make those changes without greatly impacting the total order. 4) Low-volume provides an option for bridge production Another benefit of low-volume manufacturing is that it provides a way for you to scale up to eventual full-scale production. That`s why it`s sometimes known as bridge production or bridge tooling. As volumes progressively increase, you have an opportunity to streamline best practices to achieve further cost savings while improving product quality.

How to make your parts real All manufacturers need design drawings of one kind or another to make a finished part from metal or plastic. That usually means a computer-generated CAD file, and that`s what product developers most often use to make a design. But many product developers may not know how those files are used on the shop floor.Here is what you need to know from a manufacturer`s point of view, so that your computer designs can be translated into a finished part in the fastest, most accurate and cost-effective way. What is a 3D CAD drawing? 3D CAD software is used to make a model of your design. That 3D model contains all of the dimensional data for the part, even if it`s not displayed on the screen at any given time. What you see on the screen usually looks like a solid object, something you can rotate and look at from any angle. This model is mathematical and is composed purely of data. How is the 3D CAD file used in manufacturing? In manufacturing, the 3D file serves a few important purposes. First, it helps the maker get a sense of the part`s physical volume and geometry. Knowing the size helps with ordering raw material stock. It also helps us to understand how the design might fit together with other parts. Second, because the 3D file contains the raw data, it`s used to generate the cutting program for any kind of CNC machining process. In this case, the 3D model becomes G-code which tells the computer-controlled machine what path it will take to cut the shape from raw material. What is a 2D CAD drawing? A 2D CAD drawing is a two-dimensional line drawing that shows only one face of the part, perpendicular to it. It works something like a snapshot of the part, from one perspective. These are the kinds of drawings that used to be called blueprints, and they can still be drawn the old-fashioned way on a drafting table. Nowadays, 2D CAD drawings are mostly created digitally using graphic software, or they can be derived directly – with the click of a button – from a 3D model. How is a 2D CAD file used in manufacturing? Unlike a 3D rendering, a 2D drawing does not automatically contain any data. Therefore it usually cannot offer enough information to the manufacturer. So it`s up to the designer to specify everything important about the part and how they want it to look, feel and function. All 2D CAD files should include at least: Physical dimensions and tolerances Hole sizes, locations and type of threads Surface Flatness Surface finish(es) and color Material type(s) Corner radii Critical dimensions For manual machining operations, the 2D drawing files need to contain enough information to make all the features of the part. Skilled machinists are adept at interpreting design drawings to turn them into finished parts by hand. With modern CNC equipment, such drawings are most often used to call out surface finish treatments and how the part is to be measured. Only you, the designer, know how the part will be used and what its critical functions are. This information needs to be captured in a 2D drawing, and this is what the manufacturer uses to check against the finished piece. If we were presented with only 2D drawings for making a CNC machined part, we`d still need to make a 3D file, and that would take time and money. Remember, when CNC machining is involved, the 3D file is used to make the part, and the 2D is used to measure it. Which is best for your project, 2D or 3D? Answer: Both! We strongly recommend including both 3D and 2D drawing files on every project. This gives the most complete picture of the total part, which is helpful for generating an accurate quotation.The more information we have from your side the faster and more efficiently we can get to work making your prototype or low-volume production part. As always, once you`re happy with our quote and ready to get started, we`ll do a design for manufacturing review to double check that your product has been designed for the best outcome. When required, our engineers might give you feedback to ensure that your design is optimized for manufacturing. Send us your CAD files today and let`s get started!

The Art of Inspecting Material Manufacturing high-quality prototypes and parts requires a combination of engineering, programming, machining and design skills. But as important as those skills are, they can`t compensate for having non-conforming material. We spend a lot of time ensuring we only provide quality material that conforms to the agreed international standards. But how do we go about this given our location in China? In this article, we go behind the scenes to show you how we inspect incoming material. Ordering the right material Finding the right material is an art in and of itself. Each process has a range of preferred materials, whether it`s plastic injection molding, CNC machining or pressure die casting. There are several factors to take into account, such as grade and the materials ability to absorb certain surface finishes. When a part has been ordered we source the specific material requested by the customer. To purchase these materials, we have partnerships with a series of vendors that have all been vetted and approved by our in-house Quality Control (QC) department. We receive a wide range of materials on a daily basis Receiving and cataloging Once the ordered material reaches our manufacturing facilities in China, we take inventory to make sure we received the requested amount. Each shipment of material will have a material designation and a Star Rapid Unique Identification Number (UIN), identifying what type of material it`s supposed to be. The UIN identifies the type of material, material manufacturer, lot/batch number and the date when the material was made. After that it`s brought to our storage area for untested material. It`s separated by material type (plastic, metal etc.) based on what tests we have to run in order to verify the material. Our untested material area. All new material is stored here before testing. Testing We run a series of tests to verify the material before any of it is stored and later used for manufacturing. In fact, all incoming material is stored completely separate from our tested material in order to avoid any material being used before it`s been tested. Thanks to high-end testing equipment linked with international databases we can quickly identify whether the received material is up to specifications or whether it`s actually something else. Testing Metal With 31 CNC machines, we go through a lot of metal. In order to test metal we use a PMI Master Pro Optical Emissions Spectrometer (OES) from Oxford Instruments. With the OES it takes less than 60 seconds to find out whether the received material is in conformance. After we purchased the machine, we received a series of calibrated test samples as calibration standards. These were used to calibrate the machine. The results from the calibration samples are stored in the machine`s database, meaning it`s easy to pull them up during the testing procedure to find out where a piece of tested material might deviate from the sample. Testing with our Oxford Instruments OES Although the most accurate test available, the OES leaves what`s known as a [spark site". This is a small imperfection on the surface that is caused by the test. Although not an issue for large pieces of raw material, having these spark sites on finished goods is not desirable. In order to have a non-destructive way of testing metal we also use an Oxford Instruments XMet7500 X-Ray Flourescence (XRF) gun. All elements flouresce under x-rays and this gun can detect the emitted spectra and match them with a database. It allows us to test smaller pieces of raw material upon arrival as well as test the material of finished parts. The Oxford Instruments XMet7500 X-Ray Flourescence (XRF) gun is great when testing smaller samples Testing Plastics Testing plastics is notoriously difficult. With different suppliers and mixes, getting an acceptable match is sometimes close to impossible with most testing methods. Because of this, we recently invested in a Brooker ALPHA Platinum ATR FTIR Spectrometer, which demonstrates our commitment to going the extra mile for positive material identification. The Brooker ALPHA Platinum ATR FTIR Spectrometer is just the latest in a long line of investments into quality control. The FTIR Spectrometer lets us compare a piece of received plastic with what`s known as a [golden sample". We order golden samples straight from the plastics manufacturer, without any middlemen or suppliers. This guarantees the integrity of the sample and gives us an accurate reference point when testing the plastic. When using the FTIR Spectrometer, we will reject all material that is below a 97% match to the golden sample. A 100% match is usually not possible except in a clean room laboratory environment. For production purposes, 97% is the industry standard best practice for verification, and well beyond what other suppliers do. We order golden samples for all plastic pellets On occasion we visit our suppliers to discuss available materials and find out what their current stock is like. When we do this, we bring our PolyMax gun – a portable material tester for plastics. Although not as accurate as the FTIR Spectrometer, it allows us to get an idea of what the material quality is before we order. Any material that has been tested at a supplier will later go through the same testing process as any other incoming material. Rejected material So what happens if the material doesn`t match what the customer has specified? Any material that doesn`t fulfill our testing requirements will be sent straight back to the supplier. We separate this material from all other materials into our non-conforming area and notify the supplier. They will then pick up the non-conforming material. Then we will receive a new batch that will go through the testing procedure. Rejected material is stored separately from all other material before it`s picked up After Testing-dongguan auking Once we`ve completed all tests for incoming materials we move them over to our warehouse for storage ahead of production. We keep a limited amount of material in stock due to the ever-changing nature of rapid prototyping and low-volume manufacturing. From one week to another we can go through a whole heap of different materials. Keeping a large inventory would in the end cost our customers more money, so we prefer to order as we go along. Once we`ve verified the material, it`s stored in our warehouse before going to the manufacturing floor We invest heavily in quality control for all aspects of our business, from inspecting incoming material to continuous testing throughout the manufacturing process. We work tirelessly to provide our customers with the best available material and go above and beyond to ensure we can deliver to your specifications. So if you have any specific material needs for your upcoming project, don`t hesitate to send us a request for quote.

Auking milling cnc machining cnc milling cnc turning This part is milled by a 4-axis CNC machine. We have used Master CAM for programming. Material was inspected by OES machine by our supplier and we can provide certificate if requried. After production, the part will be checked thoroughly and packed carefully inside a hard carton box. Parts are shipped via DHL to Europe. Customer was very happy with the result and will be placing more orders to us in future. We use more than a few metals and hard plastics along with the latest technology for producing the first class cnc machined prototypes. We prefer POM, abs, Derlin, Nylon, titanium alloy, steel, brass and other high quality materials for producing the most outstanding prototypes. Materials: Aluminum, copper, iron, stainless steel, aluminum alloy, PD, APET, PVC, plastic, hot/cold rolled steel plate/steel belt and more Surface treatment: color anodizing,powder coating, Nickel plating, chrome plating, plating, painting, zinc plating, black, E-coating, anodizing, polishing, gold-plating, silver plating, copper plating, copper-tin alloy, hot-dip galvanizing, oxidation, electrophoresis, wire drawing and more. Tolerance: ±0.01mm Certificate: ISO9001:2008 CNC machining cnc turning parts detail show: Sample delivery: 7-15working days,base on the customer's requirement. File formats: Solid Works STP,Pro/Engineer, Auto CAD(DXF,DWG), PDF,TIF etc. Applications: Household appliances, office equipment, construction Medical devices, electrical equipment, furniture, auto parts and more Packaging: inner plastic bag, outer carton box, and we can also pack products according to your requirements Testing equipment: Projecting apparatus, salt spray test, durometer, and coating thickness tester Related Products: Producing equipment: Milling machine COYO/ALSGS and CY-L-90 Other machines including spring machine Jinju and 502S, shaft machine liqiang, auto lathes Libo and XB, CNC machine SHENGYU, SYX42, inclinable press machine World and J23-80/ J23-65A/J23-16,Wire cutting machine Deren and DK7740, continuous hot-wind tempering furnace Sanli and RJC210, tapping machine Dongrong/EF, grinder machine DA Shuang Yang and M230-2, lathe machine C6233, screw machine Hexing/SX and H series and more Testing equipment: Projecting apparatus, salt spray test, durometer, and coating thickness tester

today we are happy to provide SHOCK ABSORBER and suspension .we had make a lot of shock tubes ,shock spring seat ,shock gas reservoir .

Besides of offering good price, short lead time and comfortable communication, product quality is the most important thing in Auking. We survive and develop as well as benefit by quality. So Auking has never stop building a good quality management system since we set up auking. Now we have perfect system, professional QC engineers and a range of good measuring instruments including CMM, optical projector, 3D-high gauge, handheld XRF analyser (X-MET8000 range) and lots another equipments. If QC team cost a lot as "they" thought? Yes, QC team does cost a lot but save much more cost at the same time.

Auking is famous for complex CNC parts. Rapid prototyping and low volume manufacturing of CNC metal customized parts are our daily work. CNC is the conventional way to produce precision parts. It is also a good method to make very tight tolerances robotics parts or auto prototypes. Here below is an example for CNC aluminum prototyping. This prototype is made by CNC milling with very strict tolerances on its drawing. 3D CAD model in STEP and IGES format is provided. We can then use it for CAD/CAM programming.

Auking provide cnc machined rapid prototyping service. we have many great projects done everyday. We have grown rapidly in 2017 and now we have100 employees and over 30 CNC machines. We have in-house CMM(coordinate measuring machine), 2D Projector and digital height gauge etc. All these high-end equipments can ensure all of our products are under a 100% thorough inspection before shipment. Here is another great project we delivered to our customer in April 2018. Parts are made very nicely by CNC machine. The material is Aluminium 6061 T6, machined finish. The lead time is 5 days.

Rapid Prototyping Service At AUKING, we specialize in the production of high-quality, low-cost prototypes. With PROFESSIONAL cnc services, we are the perfect one-stop-shop for all CNC prototyping needs. When you`re ready, we also provide low-volume manufacturing of 10000+ parts. Continue reading to learn more about the rapid prototyping process or send your 3D design file to our international team of engineers for a free quote. Advantages Of Making A Prototype How can making a prototype help you and your business? Here are just some of the ways: Show your customers and investors a physical model of your product Demonstrate the appearance, dimensions and features of your product Test the market with your product before production Save time and money by identifying and reducing design flaws Improve and streamline the production process Create multiple versions with different colors, surface textures and finishing processes

Material Costs The material you choose will impact the cost of your project. Material costs around the world are slowly aligning so you can expect fairly similar material costs regardless of where you manufacture. So finding out your local cost for raw material can give you a rough idea of material costs. It`s possible to get both cheaper and more expensive materials for your product. However, this will mean a trade-off for the final product. Cheaper raw material will mean a cheaper product but it might lack durability or quality. A more expensive material will instantly raise the manufacturing costs but provide a product that lasts longer and is of higher quality. If you`d like more information on material properties, we recommend checking out