Our high-precision machining services deliver high quality parts with very small tolerances- ideal in the production of robot and humanoid parts.
We provide speedy turnarounds and customizable production to any project.
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Precision machining involves high-technology CNC machine in producing individual pieces with very tight tolerances and great precision. It is perfect with robot and humanoid parts, each of which is to the precise specifications.
The outcome is increased performance, high durability, and general uniformity.
We provide expert services in the project support to all levels of humanoid robot parts manufacturing such as rapid prototyping, all the way to large-scale production. We guarantee precision machining of the highest degree of accuracy and performance.
Our team of experts provides the best solution regarding robotics parts manufacturing.
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Capability
Details/Specifications
Material Compatibility
Stainless Steel, Titanium, Aluminum, Tool Steel, Copper
Tolerance
± 0.0001 inches (0.0025 mm) or better (based on material and thickness)
Maximum Workpiece Size
Length: 16 inches (400 mm)
Width: 12 inches (300 mm)
Height: 8 inches (200 mm)
Cutting Speed
Up to 300 mm2/min (specific to material and thickness)
Surface Finish
As fine as Ra 0.2 µm
Maximum Cutting Thickness
Up to 12 inches (300 mm) – varies based on material
Wire Diameter Range
0.004 inches (0.1 mm) to 0.012 inches (0.3 mm)
Lorem ipsum dolor sit amet consectetur. Risus diam dictum faucibus elit tellus duis vestibulum leo. Nec mauris sagittis viverra aliquam odio varius integer diam eu. Cursus semper quis velit montes sit magna nunc nunc. Id aliquam dui suspendisse tellus adipiscing pulvinar et.Nec mauris sagittis viverra aliquam odio varius integer diam eu. Cursus semper quis velit montes sit magna nunc nunc. Id aliquam dui suspendisse tellus adipiscing pulvinar et.
Capability
Details/Specifications
Material Compatibility
Stainless Steel, Titanium, Aluminum, Tool Steel, Copper
Tolerance
± 0.0001 inches (0.0025 mm) or better (based on material and thickness)
Maximum Workpiece Size
Length: 16 inches (400 mm)
Width: 12 inches (300 mm)
Height: 8 inches (200 mm)
Cutting Speed
Up to 300 mm2/min (specific to material and thickness)
Surface Finish
As fine as Ra 0.2 µm
Maximum Cutting Thickness
Up to 12 inches (300 mm) – varies based on material
Wire Diameter Range
0.004 inches (0.1 mm) to 0.012 inches (0.3 mm)
Lorem ipsum dolor sit amet consectetur. Risus diam dictum faucibus elit tellus duis vestibulum leo. Nec mauris sagittis viverra aliquam odio varius integer diam eu. Cursus semper quis velit montes sit magna nunc nunc. Id aliquam dui suspendisse tellus adipiscing pulvinar et.Nec mauris sagittis viverra aliquam odio varius integer diam eu. Cursus semper quis velit montes sit magna nunc nunc. Id aliquam dui suspendisse tellus adipiscing pulvinar et.
Capability
Details/Specifications
Material Compatibility
Stainless Steel, Titanium, Aluminum, Tool Steel, Copper
Tolerance
± 0.0001 inches (0.0025 mm) or better (based on material and thickness)
Maximum Workpiece Size
Length: 16 inches (400 mm)
Width: 12 inches (300 mm)
Height: 8 inches (200 mm)
Cutting Speed
Up to 300 mm2/min (specific to material and thickness)
Surface Finish
As fine as Ra 0.2 µm
Maximum Cutting Thickness
Up to 12 inches (300 mm) – varies based on material
Wire Diameter Range
0.004 inches (0.1 mm) to 0.012 inches (0.3 mm)
Lorem ipsum dolor sit amet consectetur. Risus diam dictum faucibus elit tellus duis vestibulum leo. Nec mauris sagittis viverra aliquam odio varius integer diam eu. Cursus semper quis velit montes sit magna nunc nunc. Id aliquam dui suspendisse tellus adipiscing pulvinar et.Nec mauris sagittis viverra aliquam odio varius integer diam eu. Cursus semper quis velit montes sit magna nunc nunc. Id aliquam dui suspendisse tellus adipiscing pulvinar et.
Capability
Details/Specifications
Material Compatibility
Stainless Steel, Titanium, Aluminum, Tool Steel, Copper
Tolerance
± 0.0001 inches (0.0025 mm) or better (based on material and thickness)
Maximum Workpiece Size
Length: 16 inches (400 mm)
Width: 12 inches (300 mm)
Height: 8 inches (200 mm)
Cutting Speed
Up to 300 mm2/min (specific to material and thickness)
Surface Finish
As fine as Ra 0.2 µm
Maximum Cutting Thickness
Up to 12 inches (300 mm) – varies based on material
Wire Diameter Range
0.004 inches (0.1 mm) to 0.012 inches (0.3 mm)
Lorem ipsum dolor sit amet consectetur. Risus diam dictum faucibus elit tellus duis vestibulum leo. Nec mauris sagittis viverra aliquam odio varius integer diam eu. Cursus semper quis velit montes sit magna nunc nunc. Id aliquam dui suspendisse tellus adipiscing pulvinar et.Nec mauris sagittis viverra aliquam odio varius integer diam eu. Cursus semper quis velit montes sit magna nunc nunc. Id aliquam dui suspendisse tellus adipiscing pulvinar et.
Capability
Details/Specifications
Material Compatibility
Stainless Steel, Titanium, Aluminum, Tool Steel, Copper
Tolerance
± 0.0001 inches (0.0025 mm) or better (based on material and thickness)
Maximum Workpiece Size
Length: 16 inches (400 mm)
Width: 12 inches (300 mm)
Height: 8 inches (200 mm)
Cutting Speed
Up to 300 mm2/min (specific to material and thickness)
Surface Finish
As fine as Ra 0.2 µm
Maximum Cutting Thickness
Up to 12 inches (300 mm) – varies based on material
Wire Diameter Range
0.004 inches (0.1 mm) to 0.012 inches (0.3 mm)
We can generate instant machining quotes for 50+ metals and plastics.
Metals
Aluminum
Aluminum alloys have good
strength-to-weight ratio, high
thermal and electrical conductivity, low density and natural corrosion resistance. Can be anodized.
Alloys
Aluminum 7075-T7351 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 7075-T7351 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 6061-T651 |
3.3211 | 65028 |
AlMg1SiCu
Aluminum 7075-T651 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 6082-T651 |
3.2315 | 64430 |
AlSi1MgMn
Stainless steel
Aluminum alloys have good
strength-to-weight ratio, high
thermal and electrical conductivity, low density and natural corrosion resistance. Can be anodized.
Alloys
Aluminum 7075-T7351 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 7075-T7351 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 6061-T651 |
3.3211 | 65028 |
AlMg1SiCu
Aluminum 7075-T651 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 6082-T651 |
3.2315 | 64430 |
AlSi1MgMn
Mild steel
Aluminum alloys have good
strength-to-weight ratio, high
thermal and electrical conductivity, low density and natural corrosion resistance. Can be anodized.
Alloys
Aluminum 7075-T7351 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 7075-T7351 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 6061-T651 |
3.3211 | 65028 |
AlMg1SiCu
Aluminum 7075-T651 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 6082-T651 |
3.2315 | 64430 |
AlSi1MgMn
Brass
Aluminum alloys have good
strength-to-weight ratio, high
thermal and electrical conductivity, low density and natural corrosion resistance. Can be anodized.
Alloys
Aluminum 7075-T7351 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 7075-T7351 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 6061-T651 |
3.3211 | 65028 |
AlMg1SiCu
Aluminum 7075-T651 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 6082-T651 |
3.2315 | 64430 |
AlSi1MgMn
Copper
Aluminum alloys have good
strength-to-weight ratio, high
thermal and electrical conductivity, low density and natural corrosion resistance. Can be anodized.
Alloys
Aluminum 7075-T7351 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 7075-T7351 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 6061-T651 |
3.3211 | 65028 |
AlMg1SiCu
Aluminum 7075-T651 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 6082-T651 |
3.2315 | 64430 |
AlSi1MgMn
Alloy steel
Aluminum alloys have good
strength-to-weight ratio, high
thermal and electrical conductivity, low density and natural corrosion resistance. Can be anodized.
Alloys
Aluminum 7075-T7351 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 7075-T7351 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 6061-T651 |
3.3211 | 65028 |
AlMg1SiCu
Aluminum 7075-T651 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 6082-T651 |
3.2315 | 64430 |
AlSi1MgMn
Tool steel
Aluminum alloys have good
strength-to-weight ratio, high
thermal and electrical conductivity, low density and natural corrosion resistance. Can be anodized.
Alloys
Aluminum 7075-T7351 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 7075-T7351 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 6061-T651 |
3.3211 | 65028 |
AlMg1SiCu
Aluminum 7075-T651 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 6082-T651 |
3.2315 | 64430 |
AlSi1MgMn
Titanium
Aluminum alloys have good
strength-to-weight ratio, high
thermal and electrical conductivity, low density and natural corrosion resistance. Can be anodized.
Alloys
Aluminum 7075-T7351 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 7075-T7351 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 6061-T651 |
3.3211 | 65028 |
AlMg1SiCu
Aluminum 7075-T651 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 6082-T651 |
3.2315 | 64430 |
AlSi1MgMn
Inconel
Aluminum alloys have good
strength-to-weight ratio, high
thermal and electrical conductivity, low density and natural corrosion resistance. Can be anodized.
Alloys
Aluminum 7075-T7351 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 7075-T7351 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 6061-T651 |
3.3211 | 65028 |
AlMg1SiCu
Aluminum 7075-T651 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 6082-T651 |
3.2315 | 64430 |
AlSi1MgMn
Invar 36
Aluminum alloys have good
strength-to-weight ratio, high
thermal and electrical conductivity, low density and natural corrosion resistance. Can be anodized.
Alloys
Aluminum 7075-T7351 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 7075-T7351 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 6061-T651 |
3.3211 | 65028 |
AlMg1SiCu
Aluminum 7075-T651 |
3.4365 | 76528 |
AlZn5.5MgCu
Aluminum 6082-T651 |
3.2315 | 64430 |
AlSi1MgMn
Plastics
POM (Delrin/Acetal)
POM is an engineering
thermoplastic used in precision
parts requiring high stiffness, low
friction, and excellent dimensional
stability.
Nylon
POM is an engineering
thermoplastic used in precision
parts requiring high stiffness, low
friction, and excellent dimensional
stability.
PPSU
POM is an engineering
thermoplastic used in precision
parts requiring high stiffness, low
friction, and excellent dimensional
stability.
ABS
POM is an engineering
thermoplastic used in precision
parts requiring high stiffness, low
friction, and excellent dimensional
stability.
PEEK
POM is an engineering
thermoplastic used in precision
parts requiring high stiffness, low
friction, and excellent dimensional
stability.
PTFE (Teflon)
POM is an engineering
thermoplastic used in precision
parts requiring high stiffness, low
friction, and excellent dimensional
stability.
Polycarbonate
POM is an engineering
thermoplastic used in precision
parts requiring high stiffness, low
friction, and excellent dimensional
stability.
Polyethylene
POM is an engineering
thermoplastic used in precision
parts requiring high stiffness, low
friction, and excellent dimensional
stability.
PVC
POM is an engineering
thermoplastic used in precision
parts requiring high stiffness, low
friction, and excellent dimensional
stability.
PMMA (Acrylic)
POM is an engineering
thermoplastic used in precision
parts requiring high stiffness, low
friction, and excellent dimensional
stability.
PET
POM is an engineering
thermoplastic used in precision
parts requiring high stiffness, low
friction, and excellent dimensional
stability.
Polypropylene
POM is an engineering
thermoplastic used in precision
parts requiring high stiffness, low
friction, and excellent dimensional
stability.
G-10
POM is an engineering
thermoplastic used in precision
parts requiring high stiffness, low
friction, and excellent dimensional
stability.
FR4
POM is an engineering
thermoplastic used in precision
parts requiring high stiffness, low
friction, and excellent dimensional
stability.
PEI
POM is an engineering
thermoplastic used in precision
parts requiring high stiffness, low
friction, and excellent dimensional
stability.
Providing high quality, on-demand rapid manufacturing services for custom prototype
machined parts and product manufacturing
Prototyping
We transform your ideas into precise, real prototypes, accelerating product development with technologies like 3D printing, CNC machining, and injection molding. Our approach enables rapid testing and validation of parts, smoothing the path from concept to market.
Production
High-quality, large-scale manufacturing solutions tailored to meet your production needs. With state-of-the-art facilities, advanced technologies, and a commitment to precision, we ensure your products are manufactured efficiently, consistently, and at scale.
You can upload your parts design files related to robotic parts and choose the CNC machining service required with ease.
Our experts check your design in terms of manufacturability, and their comments are personalized to provide the best CNC machining.
After approving the quote, the production starts right away with several materials and finishing options.
Your robotic parts are manufactured and delivered promptly, ensuring timely delivery within your stipulated turnaround times.
All of our Partners are hand and data picked. Our stringent onboarding
and training processes mean we develop and only work with the top
performing suppliers to provide top-notch on-demand manufacturing
services, including reliable rapid manufacturing services that meet
urgent production needs.
Typical Tolerance (mm)
Best Possible Tolerance (mm)
Notes
EDM (Electrical Discharge Machining)
±0.015
±0.005
Tolerance can be affected by electrode wear.
Grinding
±0.005
±0.001
Surface finish is typically smoother with grinding.
CNC Turning
±0.025
±0.010
Finish can impact tolerance.
CNC Milling
±0.005
±0.005
Precision can vary based on tool type and material.
We use cutting-edge CNC machines to produce high-precision parts quickly and accurately. Our equipment includes 5-axis milling machines, multi-spindle CNC machines, and advanced lathes, allowing us to handle complex parts with multiple geometries.
5-Axis CNC Machines
High-Speed CNC Milling
Multi-Spindle Lathes
Our ISO9001 and ISO13485 certified quality management systems include Virtual and In- house checks ensure reliable quality across our network.
Upload files, get a quote instantly or within 24hrs. Pay by card or on credit terms with one-click and receive your parts in as little as 3 days.
We provide the best of at least 3 quotes to you, meaning you are always getting the best possible pricing. We are very rarely beaten on price.
All of our 350+ global and local partners are highly experienced, thoroughly vetted and 100% Geomiq approved.
We’ve manufactured millions of parts for all sorts of applications, but we’re especially
knowledgeable in these areas.
Aerodynamic parts for aircraft, drones, satellites and rockets with AS 9100 certification.
Create custom medical devices
and diagnostic equipment to get healthcare innovations into
hospitals and homes.
Produce complex robotic
systems, end effectors and
automated machinery for this
innovative industry.
Our customers’ success stories are the heart of what we do. Hear firsthand reviews of how our streamlined custom manufacturing services have helped innovators bring their visions to life. From instant DFM feedback to reliable deadline management, discover why engineers and designers trust Humanoid Robotics to simplify their production processes and deliver exceptional results every time.
With Humanoid Robotics, we deliver animatronics twice as fast as competitors. And we operate with 3 manufacturing shop that can be use
There were a lot of barriers with other manufacturers that I didn’t have with Humanoid Robotics. Humanoid Robotics made the process so easy.
We knew from inception that we intended to field multiple new next generation technologies,Humanoid Robotics scenario would be prohibitive.
Precision machining is a manufacturing process where high level of precision is applied using a high level of precision machines to produce custom parts with tight tolerance and high accuracy, which is suitable in robotic parts.
Precision machining is good because it provides tight tolerances, normally +-0.001 inches and is ideal in robot components which have precise requirements.
Precision machining should be applied to many types of materials, namely metals, plastics, and composite perfect to produce robust robotic parts.
The time to manufacture parts requiring precise machinery may take days depending on the complexity of the parts, but a full production run of parts may take several weeks.
