How Tik Precision Helps Your 5-Axis Machining Project
Precision 5-axis CNC machining for complex parts, prototypes, and low-volume production.
- Custom 5-Axis CNC Machining Services
- OEM Precision 5-Axis Machined Parts
- High-Precision Complex Part Machining
- Low-Volume 5-Axis Machining Support
- Factory-Direct 5-Axis Machining Price
- Rapid Prototype 5-Axis CNC Machining
0.002 mm
Tight tolerance capability
5-Axis
Complex geometry machining
3+2 / Simultaneous
Flexible 5-axis machining methods
What We Need for an Accurate 5-Axis Machining Quote
Advanced 5-Axis Machining Services for Complex Designs
Custom Online 5-Axis Machining Services Instant quotes on custom metal and plastic machined parts | International prototype pricing includes tariffs | ISO 9001:2015 certified.
- Instant DFM review
- Low-Volume Manufacturing
Fast Delivery
CAD File
STEP, STP, SLDPRT, IPT, PRT, SAT or PDF drawings are preferred.
Material
Aluminum, stainless steel, titanium, brass, copper, plastics or custom materials.
Quantity
Prototype, low-volume, small batch or repeat production quantities.
Tolerance & Finish
Critical tolerances, surface roughness, finishing requirements and inspection needs.
Start A 5-Axis Machined Parts Quote
Upload Your File & Start Your 5-Axis Quote
Upload your CAD file, drawing, material, quantity, tolerance, critical geometry and surface finish requirements. Our engineering team will review your project and provide a clear 5-axis machining quote.
STEP / STP / SLDPRT / IPT / PRT / SAT / PDF drawings
Submit Project Details
Send CAD files, drawings, material, quantity, tolerance, critical geometry and finishing requirements.
Engineering Review
Our team reviews manufacturability, 5-axis machining strategy, tool access, tolerance risks and cost-saving options.
Receive Quote Within 24 Hours
Get pricing, lead time, DFM suggestions and 5-axis machining options from our engineering team.
No MOQ required. All uploaded files are secure and confidential. Engineering response within 24 hours. NDA available upon request.
What Is 5-Axis Machining?
5-axis machining moves the cutting tool and part across five axes, allowing complex features, contoured surfaces and angled holes to be machined in a single setup.
Complex Features Machined in One Setup
It’s not just a process. It’s how we turn impossible parts into repeatable reality.
While conventional machining forces you to flip, reposition, and re-clamp a part multiple times — each step risking error — 5-axis machining moves the tool and part simultaneously across five axes. That means we can machine complex features like deep cavities, contoured surfaces, and angled holes in a single clamping.
You get exactly what you designed — the first time, every time.
At Tik Precision, we don’t just offer 5-axis. We master it for you.
—〉 Give us your hardest part. We’ll prove 5-axis works.
01
No Tolerance Stack-Ups
Fewer setups help reduce accumulated positioning errors between complex features, angled holes and contoured surfaces.
02
No Soft Jaw Mismatches
Machining more features in one clamping helps avoid mismatch risks caused by repeated repositioning or custom fixturing.
03
No “Can’t Be Done”
5-axis tool access makes deep cavities, curved surfaces and difficult angles more practical for complex precision parts.
Advanced 5-Axis Machining Capabilities
Tik Precision uses advanced 5-axis CNC machining technology to produce complex parts with exceptional accuracy and efficiency. With 3+2 fixed axis and 5-axis simultaneous machining methods, we can handle intricate geometries, improve precision and reduce setup times.
Stable multi-face machining with fixed rotary positioning
3+2 fixed axis machining uses three linear axes and two rotary axes to position the part at different angles. It is ideal for complex parts that do not require full simultaneous movement but still need high precision, multi-face access and flexible setup control.
- Multi-face components — machine the top, sides, and back in one setup
- Angled holes & compound angles — drill at 15°, 30°, 45° without custom fixtures
- Deep cavity mold components — tilt for better tool access and rigidity
- Aerospace brackets & manifolds — complex structural parts with features on every side
- Hydraulic & pneumatic valve bodies — precision ports and threaded holes on multiple faces
- Aerospace brackets & manifolds — complex structural parts with features on every side
Fixed rotary positioning · Stable multi-face access
Continuous 5-axis machining for complex freeform parts
5-axis simultaneous machining moves the cutting tool and part together across five axes, allowing smooth surfaces, difficult angles and complex contours to be machined in one clamping with fewer stack-ups and better feature alignment.
- Impellers & Turbine Blades — smooth surfaces, aerodynamic performance
- Medical Implants — complex contours, bone-matching geometry
- Aerospace Housings — multi-face features, tight tolerances
- Mold & Die Components — deep cavities, steep walls
- Complex Brackets & Manifolds — holes and threads on five sides
Continuous tool movement · Best for freeform geometry
3+2 Fixed Axis
Best for multi-face parts, angled holes and complex features that need precise positioning without full simultaneous motion.
5-Axis Simultaneous
Recommended for impellers, turbine blades, freeform surfaces and complex parts requiring continuous tool movement.
- Titanium Alloys
- Aluminum Alloys
- Stainless Steel
- Alloy Steel
- Copper Alloys
- Superalloy
- Engineering Plastics
PRECISION MATERIAL CAPABILITY
From Raw Material to Tight-Tolerance Machined Components
LIGHTWEIGHT STRENGTH
Titanium Alloys CNC Machining
Titanium alloys provide high strength-to-weight performance, corrosion resistance, and mechanical stability for aerospace, medical, marine, and high-performance industrial components.
GB
TA1 / TA2 / TC4 / TC11
AISI
Grade 2 / Grade 5 / Grade 7 / Grade 23
DIN
3.7035 / 3.7165 / 3.7235
JIS
TP340 / TP480 / Ti-6Al-4V
Machining Focus
- Heat control during cutting
- Tool wear and cutting stability
- Thin-wall deformation control
- Surface finish and burr control
Typical Parts
Aerospace parts
Medical devices
Marine components
Precision housings
STRENGTH INDEX
95%
Recommended for lightweight, corrosion-resistant, and high-strength components requiring stable tolerances and reliable surface quality.
PRECISION MATERIAL CAPABILITY
From Raw Material to Tight-Tolerance Machined Components
LIGHTWEIGHT MACHINING
Aluminum Alloys CNC Machining
Aluminum alloys combine low density, corrosion resistance, excellent machinability, and strong strength-to-weight performance for precision CNC parts with stable tolerances and efficient production.
GB
5052 / 5083 / 6061 / 6063 / 2A12 / 2A70 / 7075
AISI
5052 / 5083 / 6061 / 6063 / 2024 / 2618 / 7075
DIN
3.3523 / 3.3547 / 3.3211 / 3.3206 / 3.1355 / 3.1924 / 3.4365
JIS
A5052 / A5083 / A6061 / A6063 / A2024 / A2618 / A7075
Machining Focus
- High-speed machining efficiency
- Tight tolerance dimensional control
- Anodizing and surface finishing
- Burr control for clean edges
Typical Parts
Machine housings
Mounting brackets
Heat sinks
Fixture components
MACHINABILITY INDEX
96%
Recommended for lightweight, cost-efficient, and tight-tolerance CNC components requiring fast production and reliable surface finishing.
PRECISION MATERIAL CAPABILITY
From Raw Material to Tight-Tolerance Machined Components
CORROSION RESISTANT
Stainless Steel CNC Machining
Stainless steel provides corrosion resistance, mechanical strength, and dimensional stability for CNC components used in chemical, humid, high-temperature, and demanding industrial environments.
GB
303 / 304 / 316L / 420 / 440C / 17-4PH
AISI
303 / 304 / 316L / 420 / 440C / 630
DIN
1.4305 / 1.4301 / 1.4404 / 1.4021 / 1.4125 / 1.4542
JIS
SUS303 / SUS304 / SUS316L / SUS420J1 / SUS440C / SUS630
Machining Focus
- Corrosion-resistant surface quality
- Tool wear and cutting stability
- Tight tolerance dimensional control
- Thread and hole feature accuracy
Typical Parts
Valve components
Precision shafts
Flanged parts
Industrial fittings
CORROSION INDEX
97%
Recommended for corrosion-resistant, high-strength, and dimensionally stable parts used in harsh industrial environments.
PRECISION MATERIAL CAPABILITY
From Raw Material to Tight-Tolerance Machined Components
TRANSMISSION GRADE
Alloy Steel CNC Machining
Alloy steel is used for high-load mechanical components such as gear shafts, transmission parts, precision fixtures, and wear-resistant industrial assemblies.
GB
45# / 40Cr / 42CrMo
AISI
1045 / 4140 / 4340
DIN
1.1191 / 1.7225
JIS
S45C / SCM440
Machining Focus
- Heat treatment compatibility
- Gear feature accuracy
- High-load mechanical stability
Typical Parts
Gear shafts
Transmission parts
Machine components
Fixtures
STRENGTH INDEX
96%
Recommended for load-bearing, wear-resistant, and high-precision mechanical parts.
PRECISION MATERIAL CAPABILITY
From Raw Material to Tight-Tolerance Machined Components
CONDUCTIVE GRADE
Copper Alloys CNC Machining
Copper alloys offer excellent electrical and thermal conductivity for CNC machined electrical components, heat transfer parts, connectors, and precision industrial applications.
GB
T2 / H62 / HPb59-1 / QAl9-4 / QBe2
AISI
C11000 / C28000 / C37710 / C63200 / C17200
DIN
2.009 / 2.0321 / 2.038 / 2.096 / 2.1247
JIS
C1100 / C2800 / C3771 / C6320 / C1720
Machining Focus
- Electrical conductivity retention
- Thermal transfer performance
- Burr control for soft materials
- Thread and hole feature accuracy
Typical Parts
Connector components
Thermal transfer parts
Electrical terminals
Bronze bushings
CONDUCTIVITY INDEX
98%
Recommended for electrical, thermal transfer, and precision connector components requiring reliable conductivity and stable machining quality.
PRECISION MATERIAL CAPABILITY
From Raw Material to Tight-Tolerance Machined Components
EXTREME HEAT GRADE
Superalloy CNC Machining
Superalloys provide heat resistance, oxidation resistance, corrosion protection, and creep strength for CNC machined components used in extreme thermal and mechanical environments.
GB
GH3030 / GH2132 / GH4169 / GH5188
AISI
A286 / Inconel 718 / Haynes 25
DIN
1.4980 / 2.4668 / 2.4964
JIS
SUH660 / NCF718
Machining Focus
- Heat-resistant alloy machining
- Tool wear and cutting stability
- Surface integrity under high stress
- Creep-resistant part accuracy
Typical Parts
Turbine components
Exhaust system parts
Heat exchanger parts
Aerospace engine parts
HEAT RESISTANCE INDEX
98%
Recommended for high-temperature, creep-resistant, and corrosion-protected components used in extreme thermal and mechanical environments.
PRECISION MATERIAL CAPABILITY
From Raw Material to Tight-Tolerance Machined Components
NO TOOLING REQUIRED
Engineering Plastics CNC Machining
Engineering plastics allow tight-tolerance CNC parts without tooling costs, design lock-in, or minimum order quantities, making them suitable for prototypes and low-volume production.
High-Performance
PEEK / PI / PEI
Engineering
POM / PPS / PTFE
General Use
ABS / PC / Nylon
Functional Needs
Insulation / Wear resistance / Low friction
Machining Focus
- Burr-free edge quality
- Stress-controlled machining
- Tight tolerance plastic parts
Typical Parts
Precision plastic gears
Insulation parts
Low-friction bushings
Custom plastic housings
PROTOTYPE FLEXIBILITY
95%
Recommended for tight-tolerance plastic prototypes, functional components, and low-volume production without mold tooling.
Surface Finishing for 5-Axis Machined Parts
Choose the right finish for 5-axis machined parts, from smooth as-machined surfaces to plated, coated, polished or bead-blasted finishes. Tik Precision supports finishes for appearance, corrosion resistance, wear protection and production consistency.
Electroplating
- Zinc plating
- Decorative chrome plating
- Hard chrome plating
- Electrolytic nickel plating
- Electroless nickel plating
- Gold plating
Conversion Coating
- Anodized treatment
- Hardcoat anodizing
- Conductive oxidation
- Micro-arc oxidation
- Black oxide
- Passivation
Heat Treatment
- QPQ treatment
- Carburizing
- Nitriding
- Carbonitriding
Mechanical & Physical Treatment
- Bead blasting
- Shot blasting
- Surface brushing
- Lapping and polishing
- Laser texturing/Laser roughening
Painting & Coating
- Electrophoretic coating
- Powder coating
- Teflon / PTFE coating
- PVD coating
Finish Matching
- Approved sample matching
- Color and texture control
- Masking requirement review
- Batch consistency check
- Custom finish support
- Pre-production finish approval
Need help choosing a finish?
Share your drawing, material, surface requirement and application. We will recommend practical finishing options for cost, appearance, complex geometry and production stability.
From 5-Axis Surface to Production-Ready Finish
For 5-axis machined parts, surface finish affects curved surfaces, angled features, deep cavities, assembly fit and final appearance. Our engineering team reviews material, geometry, tolerance, roughness, masking areas and application requirements before recommending a suitable finish.
5-Axis machining — where complex geometry meets flawless finish.
- Smooth continuous surfaces — no faceted steps
- Ra 0.4 – 1.6 µm typical, depending on material and geometry
- Ready for most functional applications
100+ Finish Options
materials and finish combinations
DFM Finish Review
review before finishing approval
OEM Appearance Support
color, texture and packaging support
QC Finish Inspection
inspection before shipment
Send drawings, material, target finish, roughness, tolerance, masking areas and application conditions. We will help match the right finish before production starts.
5-Axis Machined Parts for Demanding Geometries
5-axis machining is ideal for complex, high-precision parts with demanding geometries, tight tolerances, curved surfaces and intricate details.
Complex Geometry
Curved surfaces, deep cavities, angled holes and multi-face features for complex 5-axis machined parts.
Material Matching
Aluminum, stainless steel, titanium, alloy steel and engineering plastics for demanding 5-axis applications.
Tolerance Control
Critical dimensions, feature alignment and surface requirements are reviewed before machining and inspection.
Finish Support
As-machined, anodized, plated, polished, coated and custom finishes for production-ready 5-axis parts.
Have a complex part for 5-axis machining?
Send your CAD file, material, tolerance, quantity and critical geometry requirements. Our engineers will review manufacturability and recommend the right 5-axis machining strategy.
5-Axis Machining Industries We Services
We support a wide range of industries with precision CNC machining — delivering reliable, high-quality parts engineered for real-world performance.Not sure if your part is suitable for CNC machining? Our experienced engineers will review your design and provide free, actionable feedback to help you move forward with confidence.
Aerospace / Model Aviation
- Turbine blades and blisks
- Structural brackets and mounts
- Manifolds and fluid system parts
- Landing gear components
Energy & Power
- Turbine blades and vanes
- Impellers for compressors and pumps
- Hydraulic manifolds and valve bodies
- Connecting rods and structural brackets
Medical Devices
- Orthopedic implants
- Spinal implants
- Surgical instruments
- Trauma plates and screws
Semiconductor
- Chamber components
- Wafer handling parts
- Susceptors and heaters
- Mounting and alignment fixtures
Robotics
- Harmonic drive components
- Robot arm links
- Joints and actuator housings
- End effectors and grippers
Optics Industry
- Optical mounts and lens holders
- Mirror mounts and gimbals
- Collimator and beam expander housings
- Reflector bowl and lens housing
Automotive
- Transmission housings
- Motor housings and shafts
- Compressor housings
- Reduction gears
Other Precision Industry
- Automation parts
- Waterproof camera housings
- Ducted fan components
- Rudder and steering gear
Not sure if your part fits our machining capabilities?
Send your drawing, material and application. Our engineers will review your project and provide practical manufacturing feedback.
From Drawing Review to Delivered 5-Axis Machined Parts
See how your 5-axis machining project moves from CAD review to machining strategy, tool access planning, inspection, finishing and delivery with clear engineering communication at each step.
01
Send Drawings
Share CAD files, material, quantity, tolerance, critical geometry and surface finish requirements for engineering review.
02
Engineering Check
Our team reviews manufacturability, tool access, setup strategy, tolerance risks and 5-axis machining options.
03
5-Axis Machining & Inspection
Parts move through 3+2 or simultaneous 5-axis machining, in-process checks, finishing and dimensional inspection when required.
04
Ship & Support
Finished 5-axis machined parts are packed, shipped and supported with inspection records or reorder assistance when needed.
Quality Assurance Built Into Every CNC Machined Part
From material verification to final dimensional inspection, Tik Precision uses controlled inspection steps and precision measurement equipment to keep parts consistent before shipment.
Incoming Material Check
Material certificates, visual checks and requirement review before machining starts.
In-Process Control
First article checks, patrol inspection and process monitoring during machining.
Final Dimensional Inspection
Critical dimensions, surface finish, function and cosmetic requirements are verified.
Outgoing & Shipping Verification
Packaging, labeling, report generation and shipment readiness are checked before dispatch.
5-Axis CNC Machining Services FAQs
Find quick answers about 5-axis machining tolerances, complex part geometry, materials, lead time, inspection reports, prototyping, and low-volume production support.
Questions Buyers Usually Ask First
These answers help engineering and purchasing teams understand 5-axis machining tolerances, complex geometry, materials, lead time, inspection support, and production options before requesting a quote.
Our standard tolerance control follows a drawing-first principle under the ISO 9001. Depending on the specific requirements and corresponding machining process, tolerances can be controlled down to ±0.002 mm.Tighter tolerances available upon request with design review.. Fewer setups mean better accuracy than multi-setup 3/4-axis jobs.
Choose 5-axis for complex contours, undercuts, angled features, or parts requiring machining on multiple faces – all in one setup.
For simple parts, yes. For complex parts, often no – because 5-axis reduces setups, fixturing, and manual handling. For highly complex geometries, 5-axis is usually more cost-effective.
3-7 days for prototypes and small batches. One-day expedited available.
Yes. CMM or optical inspection reports available. Complex surfaces and critical features can be 100% measured.
Simultaneous 5-axis: Continuous motion across all axes. Best for complex freeform surfaces (impellers, turbine blades).
3+2 (positional): Locks two rotational axes while cutting. Faster and more rigid. Suitable for multi-face parts and undercuts.
We offer both.
Down to 0.05 mm, depending on material and feature depth. 5-axis often allows thinner walls than 3-axis due to optimal tool angles.
Send us your CAD. We provide a free DFM assessment and recommend the most cost-effective process – 3-axis, 4-axis, 3+2, or simultaneous 5-axis.