CNC Aluminum 6061 Parts Tolerance ± 0.01 mm Sandblasting And Anodizing Silver High Quality Cheap Price
This aluminum gimble part was high precision CNC turned and milled, it was one of the assembly components of a camera supporting stand. The original part design was optimized on our advice to cut down the production time and cost. Both working great and looking pretty were required for this part manufacturing, rapid prototypes prior to mass manufacturing were made to test our manufacturing capabilities.
CNC High Precision Machining is an subtractive manufacturing (compared to Additive Manufacturing, such as 3D Printing) process using computer-controlled machines to manufacture precise and complex parts from a variety of solid plastics and metals. CNC machined parts are widely used in many industries of our daily life. Some of the key features of CNC machining include:
Excellent Flexibility: CNC machining can be programmed to produce lots of parts with different structures and shapes, from simple components and small size to complex geometries and large dimensions. This excellent flexibility has CNC machining ideal for rapid prototyping or low and high volume production.
Fully Automation: CNC machining can be fully automated, which means it can run automatically without human intervention. This greatly reduces the labor cost and increases efficiency and productivity.
Good Versatility: CNC machining works great with a variety of materials, including metals, plastics, composites, and wood. This makes CNC machining suitable for a wide range of applications, from aerospace and medical devices to consumer products and electronics, etc.
CNC Turning is a high precision manufacturing process using a stationary cutting tool to remove unwanted material from a high-speed rotating workpiece. The workpiece is usually held in a chuck and rotating fast while the cutting tool moves along the length of the workpiece to create the desired shapes and features.
One of the fast growing and wide applications of CNC machining today is Rapid Prototyping for its advantages of cheap and target materials, tight tolerance as well as usually cheap production cost, thus CNC milled prototypes deliver more reliable and economical feedback on mechanism and strength verification.
CNC aluminum parts are widely used in many industries and applications in our daily life for its comprehensive performance and excellent practicability. Benefits of CNC machined aluminum parts:
Versatility: CNC machining works with a wide range of aluminum alloys, including series of 6061, 7075, and 2024, etc. It can also produce different kinds of shapes and features with great dimension stability, from simple holes and small slots to complex contours and large structures.
Corrosion Resistance: Aluminum alloy has excellent corrosion resistance, which makes it suitable for outdoor and marine applications that require high corrosion resistance capability.
Surface Finishing: CNC machined aluminum parts have wide surface finishing options, such as anodizing, hard anodizing, painting, powder coating, brushing, laser engraving, electropolishing, etc, which have CNC aluminum parts not only work and also look as intended as possible.
Compared with Additive Manufacturing (AM) technologies for Rapid Prototyping & Manufacturing, CNC Machining is a great choice for Rapid Prototypes manufacturing for its real and cheap raw materials, high precision, wide material and surface finishing options, usually economical manufacturing cost, and fast turnaround. Here are part of the benefits of CNC machined prototypes:
High Precision. Additive Manufacturing (AM) technologies, such as 3D Printing, provide manufacturing tolerance usually ± 0.1 mm or worse, CNC machining can provide tolerance up to ± 0.001 mm that is much tighter than AM technologies, so CNC machined prototypes provide more reliable and precise feedback on fitting and mechanism test.
Wide Material Options. So far the material options for AM technologies are relatively limited, such as ABS, PP, PMMA, Aluminum, Stainless Steel, Titanium with all simulated material properties, while CNC machining works nearly all common solid plastics, metals, woods, composite materials, etc.
Economical Production Cost. Material takes the majority of AM prototypes manufacturing cost, and AM technology simulated materials cost much much more than its relatively raw materials used by CNC machining, such as CNC ABS material costs round 3 USD per kilogram, and AM simulated ABS one costs round 500 USD per kilogram and even more some years ago, it is around 136 times higher than CNC one. So more material involved for the prototypes, more competitive price the CNC machining delivers.
Large Manufacturing Size. The maximum manufacturing dimensions (Length×Width×Height) of most AM technologies are under 1000×1000×1000 mm, particularly for metal prototypes manufacturing with more smaller ones. CNC machining provides more larger maximum manufacturing dimensions than AM technologies, manufacturing length over 2000 mm and width over 1000 mm is common for CNC machining.
How does HONKIA compare to other suppliers on price?
Compared to other Chinese suppliers, we choose not to compete on price but to offer the high level of quality, rapid response, and professional results. That’s why some customers cooperate with us for many years, compared with the price, they need a reliable partner to avoid serious losses caused by annoying after-sales service or even the trouble of finding no one.
What if I am not completely satisfied with the parts I receive?
HONKIA will free remake or amend the returned parts that you are not completely satisfied, or refund the full arrived payment, though this is rarely happened in the past. Any disputes based on a subjective or unilateral determination shall be discussed and negotiated to reach a reasonable result. Our continuing business relies on earning your confidence in our ability to meet and exceed the reasonable expectations.
