How Tik Precision Helps Your 3D Printing Project
Rapid 3D printing and additive manufacturing support for prototypes, low-volume parts, complex geometries and post-processing needs.
- Prototyping & Low-Volume Production
- Material Versatility
- Precision & Tolerances
- Complex Geometries
- Surface Finish & Post-Processing
- Cost & Lead Time
Prototype
Fast design validation
Complex Geometry
No tooling required
Post-Processing
Finishing and surface support
What We Need for an Accurate 3D Printing Quote
To help our engineers review your 3D printing project faster, please send your 3D file, material preference, quantity, application requirements, tolerance needs and post-processing expectations.
3D File
STEP, STP, STL, OBJ, SLDPRT, IPT, PRT or PDF drawings are preferred.
Material
Resin, nylon, ABS-like, engineering plastics, metal materials or custom material needs.
Quantity
Single prototype, small batch, low-volume or repeat production quantities.
Process & Finish
Printing process, strength, accuracy, layer detail, surface finish and post-processing needs.
Start A 3D Printing Parts Quote
Upload Your File & Start Your 3D Printing Quote
Upload your 3D file, drawing, material preference, quantity, tolerance, application and post-processing requirements. Our engineering team will review your project and provide a clear 3D printing quote.
STL / OBJ / STEP / STP / SLDPRT / IPT / PRT / PDF drawings
Submit Project Details
Send 3D files, drawings, material preference, quantity, tolerance and finishing requirements.
Engineering Review
Our team reviews printability, material suitability, strength needs, accuracy risks and post-processing options.
Receive Quote Within 24 Hours
Get pricing, lead time, material suggestions and 3D printing production options from our team.
No MOQ required. All uploaded files are secure and confidential. Engineering response within 24 hours. NDA available upon request.
Why Choose Tik Precision for 3D Printing?
Tik Precision helps turn digital designs into physical parts through additive manufacturing, supporting rapid prototypes, complex geometries, material selection, post-processing and reliable production delivery.
From Digital Idea to Functional Printed Part
3D printing builds parts layer by layer, making it possible to create complex shapes, lightweight structures and rapid prototypes without tooling. Tik Precision supports engineering review, material selection, printing, post-processing and quality control for custom additive manufacturing projects.
01
Comprehensive Additive Manufacturing
Support for rapid prototypes, low-volume production, complex geometries and functional printed parts.
02
Material & Process Support
Our team helps match material, printing process, strength, surface finish and application requirements.
03
Reliable Production Delivery
From engineering review to post-processing and inspection, each step is managed for cost, lead time and consistency.
3D Printing Services for Custom Prints
Tik Precision offers a comprehensive range of 3D printing technologies to meet diverse project requirements, providing options for high-detail prototypes, durable functional parts, and complex metal components.
High-detail resin 3D printing for visual prototypes
SLA is known for exceptional surface finish and fine detail. It is ideal for high-precision visual models, prototypes and small parts using UV-cured resin layer by layer.
Best For
- Standard resin, tough resin, clear resin and flexible resin
- Presentation models, medical and dental models, master patterns
- Excellent surface finish, tight detail and smooth appearance
- Tolerance about ±0.1–0.2 mm depending on material and geometry
- Low to medium strength prototype applications
Best detail · Smooth surface finish
Durable nylon 3D printing for functional parts
SLS uses powdered materials such as nylon to produce durable, complex parts without support structures. It is suitable for functional prototypes, housings, hinges and end-use parts.
Best For
- PA12, PA11 and glass-filled nylon materials
- Functional components, housings and hinges
- Durable and strong parts with complex geometries
- No support structures required for many designs
- Tolerance about ±0.2–0.3 mm with high strength performance
Functional parts · No support structures
Metal 3D printing for complex high-strength components
SLM is a metal 3D printing technology that fully melts metal powder to create high-strength parts with excellent mechanical properties. It is suitable for aerospace, medical and high-performance industrial applications.
Best For
- Aluminum, stainless steel, titanium and Inconel materials
- Aerospace parts, medical implants and high-performance mechanisms
- Complex internal channels and lightweight metal structures
- Metal-grade strength for demanding applications
- Tolerance about ±0.1–0.2 mm depending on geometry
Metal strength · Complex internal geometry
SLA
Best for high-detail resin prototypes, smooth visual models, presentation parts and small precision components.
SLS
Recommended for durable nylon parts, functional prototypes, housings, hinges and complex designs without support structures.
SLM
Suitable for metal 3D printed parts, aerospace components, medical implants and high-strength complex geometries.
- 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.
3D Printing Material Options
Choosing the right material is critical to meeting the functional, aesthetic and mechanical demands of your project. Tik Precision offers 3D printing materials for prototypes, functional testing and end-use production, helping you balance strength, stiffness, temperature resistance, flexibility and cost.
PLA
- Best for concept models, prototypes and educational models
- Easy to print with low cost
- Good surface finish for visual samples
- Suitable for early design validation
ABS
- Best for functional prototypes, housings and mechanical parts
- Good mechanical properties
- Moderate heat resistance
- Versatile for testing and assembly review
PEEK
- Best for aerospace, medical, automotive and industrial parts
- High temperature resistance
- Reliable mechanical performance
- Suitable for demanding functional applications
Nylon
- Best for gears, hinges and mechanical parts
- Excellent durability
- Good wear resistance
- Flexible in thin-wall structures
TPU / TPE
- Best for seals, gaskets and flexible hinges
- High elasticity
- Good vibration absorption
- Impact resistant for functional parts
Metal 3D Printing
- Aluminum, stainless steel and titanium options
- Best for aerospace, medical implants and high-performance parts
- High strength and heat resistance
- Suitable for complex metal geometries
Need help choosing a 3D printing material?
Share your 3D file, application, strength needs, tolerance requirements and quantity. We will recommend practical material and process options for your prototype or production parts.
From Prototype Material to Functional Printed Part
Our engineering team helps match the right 3D printing material to your part function, strength requirement, surface expectation, flexibility, temperature resistance and production use. Share your application and we will recommend a practical material option before printing starts.
6+ Material Groups
plastics, elastomers and metals
SLA / SLS / SLM Process Match
choose the right printing method
DFM Material Review
check function and printability
QC Part Inspection
inspection before shipment
Send your 3D file, application, strength requirement, surface expectation, flexibility needs, temperature environment and quantity. We will help select a suitable 3D printing material for your project.
3D Printed Parts for Rapid Prototyping and Production
Representative 3D printed parts show how Tik Precision supports rapid prototypes, functional parts, lightweight structures, complex geometries and low-volume production without tooling.
Complex Geometry
Lattice structures, internal channels, organic shapes and complex features that are difficult to produce with traditional tooling.
Material Matching
PLA, ABS, nylon, TPU/TPE, PEEK and metal printing options for different prototype and production needs.
Prototype Validation
Quickly test form, fit, assembly, appearance and functional requirements before moving to production.
Post-Processing Support
Surface finishing, support removal, polishing, coloring and inspection support for production-ready printed parts.
Have a part that needs 3D printing?
Send your 3D file, material preference, application, quantity and finish requirements. Our team will review printability and recommend the right 3D printing solution.
3D Printing Industries We Serve
We support industries that require rapid prototypes, complex geometries, material matching, low-volume production and practical additive manufacturing feedback before production.
Application Coverage Matrix
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 is suitable for 3D printing?
Send your 3D file, material needs and application. Our engineers will review your project and provide practical additive manufacturing feedback.
From 3D File Review to Delivered Printed Parts
A simple workflow for moving your 3D printing project from file review to material selection, printing, post-processing, inspection and delivery.
01
Send 3D Files
Share STL, OBJ, STEP or CAD files, material preference, quantity, tolerance and application requirements.
Output: clear project information for quoting.
02
DFM & Material Review
Our team reviews printability, wall thickness, structure, material suitability, tolerance risks and post-processing needs.
Output: practical DFM feedback and material suggestions.
03
3D Printing & Post-Processing
Parts move through SLA, SLS, SLM or other suitable 3D printing processes, followed by support removal and finishing when required.
Output: controlled printing and post-processing progress.
04
Inspect & Deliver
Finished printed parts are checked, packed and delivered with inspection support or repeat order assistance when needed.
Output: delivered 3D printed parts and production support.
Designed for engineering teams that need fast response, predictable execution and clear project visibility.
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.
3D Printing Services FAQs
Find quick answers about 3D printing materials, tolerances, lead time, file requirements, post-processing, prototyping, and low-volume production support.
Questions Buyers Usually Ask First
These answers help engineering and purchasing teams understand 3D printing materials, file requirements, tolerances, lead time, post-processing, inspection support, and production options before requesting a quote.
SLA (stereolithography), SLS (selective laser sintering), SLM (selective laser melting)
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 0.02 mm.Tighter tolerances available with CNC post-processing.
SLA: Standard, tough, flexible, high-temp, and clear resins
SLS: Nylon (PA12, glass-filled)
SLM: Aluminum, stainless steel, titanium
Turnaround time depends on part complexity and volume, but we strive to offer fast lead times.
Yes, we provide additional services like polishing, painting, and assembly upon request.