Precision Machining Part
0102030405
Custom Made CNC Rod End Bearing
When standard connecting rod components cannot meet your mechanical requirements, our custom made CNC rod end bearings offer an alternative. Precision-machined from premium materials, these bearings boast excellent load-bearing capacity, low-friction articulation, and are designed to withstand misalignment in demanding applications such as automotive connecting rods, industrial machinery, or aerospace actuators. Each bearing is manufactured to your specific specifications, including thread type, housing material, ball surface treatment, and lubrication method, ensuring reliable performance and extended service life in your unique operating environment.
Product Advantages
● Aerospace
High-altitude flight exposes materials to extreme pressure and temperature fluctuations. Our high-strength aluminum alloys are more than capable of meeting these demands. From the thin fuselage skin that insulates against cold and maintains cabin pressure, to internal components like seats, aluminum’s lightweight nature helps aircraft save fuel, cut emissions, and carry more payload. FRIMA’s precision machining ensures every aerospace component is flawlessly executed.
● Electrical Transmission
Aluminum can be drawn into fine wires for everyday items such as light bulb filaments and telephone lines. Long-distance, high-voltage overhead power lines also largely rely on aluminum conductors, which strike the ideal balance between conductivity and weight. Our machined aluminum terminals and connectors guarantee stable, reliable power transmission.
● Vehicle Safety
In the event of a car crash, aluminum structures are capable of absorbing a major portion of the impact energy. Our body structural components and crash energy-absorbing boxes offer passengers an extra layer of protection. Lightweight does not mean unsafe – aluminum proves this point convincingly.
● Transportation
Thanks to its low weight, high strength, and excellent formability, aluminum is an ideal material for modern transportation. Our machined aluminum CNC milling parts are widely used in automotive, aerospace, rail, and marine applications – especially in engine components, helping to reduce fuel consumption and emissions. A lighter vehicle body requires less energy, a goal pursued by the global transportation industry.
● Construction Engineering
Aluminum’s natural resistance to corrosion and low maintenance needs make it a great choice for both new builds and renovation projects. Its high strength combined with low weight allows us to enhance building safety effectively in earthquakeprone areas using our aluminum components. In addition, aluminum’s excellent light reflectivity makes it a common material in lighting fixtures.
High-altitude flight exposes materials to extreme pressure and temperature fluctuations. Our high-strength aluminum alloys are more than capable of meeting these demands. From the thin fuselage skin that insulates against cold and maintains cabin pressure, to internal components like seats, aluminum’s lightweight nature helps aircraft save fuel, cut emissions, and carry more payload. FRIMA’s precision machining ensures every aerospace component is flawlessly executed.
● Electrical Transmission
Aluminum can be drawn into fine wires for everyday items such as light bulb filaments and telephone lines. Long-distance, high-voltage overhead power lines also largely rely on aluminum conductors, which strike the ideal balance between conductivity and weight. Our machined aluminum terminals and connectors guarantee stable, reliable power transmission.
● Vehicle Safety
In the event of a car crash, aluminum structures are capable of absorbing a major portion of the impact energy. Our body structural components and crash energy-absorbing boxes offer passengers an extra layer of protection. Lightweight does not mean unsafe – aluminum proves this point convincingly.
● Transportation
Thanks to its low weight, high strength, and excellent formability, aluminum is an ideal material for modern transportation. Our machined aluminum CNC milling parts are widely used in automotive, aerospace, rail, and marine applications – especially in engine components, helping to reduce fuel consumption and emissions. A lighter vehicle body requires less energy, a goal pursued by the global transportation industry.
● Construction Engineering
Aluminum’s natural resistance to corrosion and low maintenance needs make it a great choice for both new builds and renovation projects. Its high strength combined with low weight allows us to enhance building safety effectively in earthquakeprone areas using our aluminum components. In addition, aluminum’s excellent light reflectivity makes it a common material in lighting fixtures.
Precision-CNC-Machined-Aluminum-Components
FRIMA Equipment and Processing Capabilities
| CNC Machining Standards (DIN ISO 2768-1(1991-06) | ||||||||||||||
| Tolerance class | tolerance(mm) | |||||||||||||
| Metal (ISO 2768-F) | Plastic (ISO 2768-F) | |||||||||||||
| 0.5 to 3 | Over 3 to 6 | Over 6 to 30 | Over 30 to 120 | Over 120 to 400 | Over 400 to 1000 | Over 1000 to 2000 | 0.5 to 3 | Over 3 to 6 | Over 6 to 30 | Over 30 to 120 | Over 120 to 400 | Over 400 to 1000 | Over 1000 to 2000 | |
| F | ±0.05 | ±0.05 | ±0.1 | ±0.15 | ±0.2 | ±0.3 | ±0.5 | ±0.05 | ±0.05 | ±0.1 | ±0.15 | ±0.2 | ±0.3 | ±0.5 |
| General tolerances for shape and position (DIN ISO 2768-2(1991-04) | ||||||||||||||
| Tolerance class | tolerance(mm) | |||||||||||||
| Straightness and Flatness | Verticality | Symmetry | ||||||||||||
| 10 | 10 to 30 | 30 to 100 | 100 to 300 | 300 to 1000 | 1000 to 3000 | to 100 | 100 to 300 | 300 to 1000 | 1000 to 3000 | to 100 | 100 to 300 | 300 to 1000 | 1000 to 3000 | |
| H | ±0.02 | ±0.05 | ±0.1 | ±0.2 | ±0.3 | ±0.4 | ±0.2 | ±0.3 | ±0.4 | ±0.5 | ±0.5 | |||
| As machined | Description |
| As machined | Standard finish with a surface roughness of 1.6 μm (126 μin). |
| Smoothing | The standard smoothing surface roughness (Ra) is 0.8 μm (63 μin). |
| Painting | They were spraying paint, pigment, or color to a solid surface as a colored protective layer. |
| Passivation | Remove ferrous contaminants or use a light coat of protective material to create a shell. |
| Powder Coating | A functional and decorative finish is applied as a free-flowing, dry powder. |
| Anodizing | Type II (anodizing color or clear) or Type III (anodizing hard coat) |
| Polishing | Produce a smooth and shiny surface. |
| Black Oxide | Formed a black conversion coating on metal parts. |
| Bead Blasting | Removing surface deposits by applying fine glass beads at high pressure. |
| Abrasive Blasting/Sandblasting | Smoothing and cleaning a hard surface by forcing solid particles across that surface. |
| Electroplating/Plating | Form a thin coherent metal coating on an electrode. |
| Brushing | Polishing the metal with grit results in a unidirectional satin finish. |
| Chromate Conversion coating | Increase the corrosion resistance while maintaining conductive properties |
|
Equipment type |
Quantity |
Processing range/precision |
Key features |
|
CNC machining center |
20 units |
800x500mm / ±0.005-0.01mm |
Main equipment, suitable for complex and precision components |
|
CNC machining center |
5 units |
650x500mm / ±0.005-0.01mm |
High-efficiency machining of small and medium-sized parts |
|
CNC lathe |
20 units |
750x40mm / ±0.005-0.015mm |
Applicable to rotating parts |
|
Milling machine |
6 units |
1200x550mm / ±0.01-0.02mm |
Large workpiece machining |
|
Grinder |
5 units |
Multiple specifications / ±0.005-0.01mm |
Ensure surface smoothness and flatness |
|
Wire EDM machine |
4 units |
400x350mm / ±0.01-0.02mm |
Suitable for machining irregular and hard materials |
Product Applications
Custom made CNC rod end bearings are found almost everywhere. With advanced equipment and extensive experience, FRIMA delivers custom precision parts for the following fields:
● Consumer Electronics and Computers
We machine casings, panels, consoles, knobs, and other components for electronic devices. Aluminum not only offers robust protection and a premium feel but also aids in heat dissipation. Whether it's a laptop enclosure or the internal frame of a smartphone, FRIMA achieves meticulous precision.
● Automotive Components
We manufacture a wide range of lightweight automotive parts, taking advantage of aluminum's high strength-to-weight ratio to boost vehicle performance and fuel efficiency. Examples include engine mounts, chassis parts, and radiator frames.
● Industrial Equipment and Machinery
From clamps and calipers to various machine parts, our aluminum components excel in industrial settings. Their wear and corrosion resistance ensure longterm, stable operation of equipment.
● Aerospace Components
We supply shells, brackets, and structural parts for aircraft and spacecraft that must withstand heavy loads while remaining extremely lightweight. FRIMA's machining precision meets the strict standards of the aerospace industry.
● Consumer Electronics and Computers
We machine casings, panels, consoles, knobs, and other components for electronic devices. Aluminum not only offers robust protection and a premium feel but also aids in heat dissipation. Whether it's a laptop enclosure or the internal frame of a smartphone, FRIMA achieves meticulous precision.
● Automotive Components
We manufacture a wide range of lightweight automotive parts, taking advantage of aluminum's high strength-to-weight ratio to boost vehicle performance and fuel efficiency. Examples include engine mounts, chassis parts, and radiator frames.
● Industrial Equipment and Machinery
From clamps and calipers to various machine parts, our aluminum components excel in industrial settings. Their wear and corrosion resistance ensure longterm, stable operation of equipment.
● Aerospace Components
We supply shells, brackets, and structural parts for aircraft and spacecraft that must withstand heavy loads while remaining extremely lightweight. FRIMA's machining precision meets the strict standards of the aerospace industry.
aluminum application
FAQs
1. What specifications can I customize for a rod end bearing?
You can customize the bore diameter, thread size and direction (left/right hand), housing material (steel, stainless steel, aluminum), ball material (chrome steel, 440C stainless), coating (zinc plating, anodizing, PTFE), and lubrication type (grease fitting or self-lubricating liner).
2. How do I provide my design requirements?
You can submit a 2D drawing (PDF or DXF), a 3D CAD model (STEP or IGES), or simply fill out our specification sheet with thread size, load range, and environmental conditions. Our engineers will also help optimize the design for manufacturability.
3. What is the typical lead time for a Custom made CNC rod end bearing?
Prototype quantities (1–10 pieces) usually take 1–2 weeks. Production batches (100–1000 pieces) typically require 3–5 weeks, depending on complexity and material availability.
4. Are these bearings suitable for high-temperature or corrosive environments?
Yes. For high temperatures (up to 300°C), we offer alloy steel with heat-stabilized lubricants. For corrosive environments, choose stainless steel housings with a passivated ball and a PTFE liner.
5. Do you offer both male and female thread configurations?
Absolutely. We can produce rod end bearings in male thread (stud type) or female thread (housing type), with or without a mounting slot or wrench flats, as per your drawing.
You can customize the bore diameter, thread size and direction (left/right hand), housing material (steel, stainless steel, aluminum), ball material (chrome steel, 440C stainless), coating (zinc plating, anodizing, PTFE), and lubrication type (grease fitting or self-lubricating liner).
2. How do I provide my design requirements?
You can submit a 2D drawing (PDF or DXF), a 3D CAD model (STEP or IGES), or simply fill out our specification sheet with thread size, load range, and environmental conditions. Our engineers will also help optimize the design for manufacturability.
3. What is the typical lead time for a Custom made CNC rod end bearing?
Prototype quantities (1–10 pieces) usually take 1–2 weeks. Production batches (100–1000 pieces) typically require 3–5 weeks, depending on complexity and material availability.
4. Are these bearings suitable for high-temperature or corrosive environments?
Yes. For high temperatures (up to 300°C), we offer alloy steel with heat-stabilized lubricants. For corrosive environments, choose stainless steel housings with a passivated ball and a PTFE liner.
5. Do you offer both male and female thread configurations?
Absolutely. We can produce rod end bearings in male thread (stud type) or female thread (housing type), with or without a mounting slot or wrench flats, as per your drawing.