About Us | NANOVEA
NANOVEA aims to simplify advanced measurement technology to stimulate materials engineering for the common good. NANOVEA’s instruments can be found in renowned educational and industrial organizations around the world. NANOVEA headquarters is situated in Irvine, a tech hub of Southern California. NANOVEA adheres to Total Quality Management (TQM) to ensure the highest level of quality for our products and services. All of NANOVEA’s instruments are delivered with full traceability and certification. Get unique access to 25+ years of experience in finding solutions to improve quality control and material development through NANOVEA’s unmatched range of consulting and laboratory testing services. While others are lobbying for traditional technology through aggressive marketing of their mass-produced products in a cosmetically modernized packaging, NANOVEA puts research and development at the core of its business strategy. It allows us to provide our clients with the most up-to-date and advanced solutions in the industry, instead of being forced to push outdated and overstocked products at all costs.
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Lab Service Brochure Form | NANOVEA
Products | Profilometers | PS50 (Advanced Compact) | JR25 (Portable Compact) | ST400 (Modular Standard) | AFMPRO (Atomic Force) | ST500 (Modular Large Area) | JR100 (Portable High Speed) | In-Line QC (Roughness, Texture & Finish) | Mechanical Testers | CB500 (Advanced Compact) | PB1000 (Large Platform) | Vacuum Systems (Custom) | Tribometers | T50 (Modular Standard) | T100 (Compact Pneumatic) | T2000 (High Load Pneumatic) | CR-8R (Ball Cratering Coating Thickness) | Vacuum Systems (Custom) | Testing Solutions | Profilometry | Roughness & Finish | Geometry & Shape | Flatness & Warpage | Volume & Area | Step Height & Thickness | Texture & Grain | Mechanical Testing | Indentation | Hardness & Elastic | Indentation | Stress vs Strain | Indentation | Creep & Relaxation | Indentation | Loss & Storage | Indentation | Fracture Toughness | Indentation | Yield Strength & Fatigue | High Temperature | Humidity | Scratch | Adhesive Failure | Scratch | Cohesive Failure | Scratch | Scratch Hardness | Scratch | Multi-Pass Wear | Friction | Coefficient of Friction | Low Temperature | Liquid | Vacuum | Tribology Testing | Linear | Rotational | Block on Ring | Ring on Ring | Scratch Testing | High Temperature | Corrosion | Liquid | Low Temperature | Humidity & Inert Gases | Vacuum | Lab Services | Non-Contact Profilometry Analysis | Indentation & Scratch Testing | Friction & Wear Testing | Surface Topology & Chemical Analysis | Applications | By Industry | Bio & Biotechnology | Construction Materials | Consumer Products | Medical Devices | Metal Manufacturing & Machining | Oil & Mines | Optics | Paint & Coating | Pharmaceutical | Semiconductors & Electronics | Textiles, Leather & Paper | Tooling & Machinery | Ground Transportation | Space & Aviation | Military & Defense | Energy | By Materials | Ceramics | Composites | Glass | Metals | Oils & Liquids | Organic & Bio Materials | Polymers | Rocks & Minerals | About Us | Company | Contact | Careers | Events | Press | Please fill out the form below and we will send the brochure to your email
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Micro Photonics Offers Breakthrough Technology for Temperature Specific Mechanical Testing | NANOVEA
Products | Profilometers | PS50 (Advanced Compact) | JR25 (Portable Compact) | ST400 (Modular Standard) | AFMPRO (Atomic Force) | ST500 (Modular Large Area) | JR100 (Portable High Speed) | In-Line QC (Roughness, Texture & Finish) | Mechanical Testers | CB500 (Advanced Compact) | PB1000 (Large Platform) | Vacuum Systems (Custom) | Tribometers | T50 (Modular Standard) | T100 (Compact Pneumatic) | T2000 (High Load Pneumatic) | CR-8R (Ball Cratering Coating Thickness) | Vacuum Systems (Custom) | Testing Solutions | Profilometry | Roughness & Finish | Geometry & Shape | Flatness & Warpage | Volume & Area | Step Height & Thickness | Texture & Grain | Mechanical Testing | Indentation | Hardness & Elastic | Indentation | Stress vs Strain | Indentation | Creep & Relaxation | Indentation | Loss & Storage | Indentation | Fracture Toughness | Indentation | Yield Strength & Fatigue | High Temperature | Humidity | Scratch | Adhesive Failure | Scratch | Cohesive Failure | Scratch | Scratch Hardness | Scratch | Multi-Pass Wear | Friction | Coefficient of Friction | Low Temperature | Liquid | Vacuum | Tribology Testing | Linear | Rotational | Block on Ring | Ring on Ring | Scratch Testing | High Temperature | Corrosion | Liquid | Low Temperature | Humidity & Inert Gases | Vacuum | Lab Services | Non-Contact Profilometry Analysis | Indentation & Scratch Testing | Friction & Wear Testing | Surface Topology & Chemical Analysis | Applications | By Industry | Bio & Biotechnology | Construction Materials | Consumer Products | Medical Devices | Metal Manufacturing & Machining | Oil & Mines | Optics | Paint & Coating | Pharmaceutical | Semiconductors & Electronics | Textiles, Leather & Paper | Tooling & Machinery | Ground Transportation | Space & Aviation | Military & Defense | Energy | By Materials | Ceramics | Composites | Glass | Metals | Oils & Liquids | Organic & Bio Materials | Polymers | Rocks & Minerals | About Us | Company | Contact | Careers | Events | Press | Micro Photonics Offers Breakthrough Technology for Temperature Specific Mechanical Testing | Comment | Categories | Archives
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Nanoindentation and Scratch Testing Lab Services | NANOVEA
Products | Profilometers | PS50 (Advanced Compact) | JR25 (Portable Compact) | ST400 (Modular Standard) | AFMPRO (Atomic Force) | ST500 (Modular Large Area) | JR100 (Portable High Speed) | In-Line QC (Roughness, Texture & Finish) | Mechanical Testers | CB500 (Advanced Compact) | PB1000 (Large Platform) | Vacuum Systems (Custom) | Tribometers | T50 (Modular Standard) | T100 (Compact Pneumatic) | T2000 (High Load Pneumatic) | CR-8R (Ball Cratering Coating Thickness) | Vacuum Systems (Custom) | Testing Solutions | Profilometry | Roughness & Finish | Geometry & Shape | Flatness & Warpage | Volume & Area | Step Height & Thickness | Texture & Grain | Mechanical Testing | Indentation | Hardness & Elastic | Indentation | Stress vs Strain | Indentation | Creep & Relaxation | Indentation | Loss & Storage | Indentation | Fracture Toughness | Indentation | Yield Strength & Fatigue | High Temperature | Humidity | Scratch | Adhesive Failure | Scratch | Cohesive Failure | Scratch | Scratch Hardness | Scratch | Multi-Pass Wear | Friction | Coefficient of Friction | Low Temperature | Liquid | Vacuum | Tribology Testing | Linear | Rotational | Block on Ring | Ring on Ring | Scratch Testing | High Temperature | Corrosion | Liquid | Low Temperature | Humidity & Inert Gases | Vacuum | Lab Services | Non-Contact Profilometry Analysis | Indentation & Scratch Testing | Friction & Wear Testing | Surface Topology & Chemical Analysis | Applications | By Industry | Bio & Biotechnology | Construction Materials | Consumer Products | Medical Devices | Metal Manufacturing & Machining | Oil & Mines | Optics | Paint & Coating | Pharmaceutical | Semiconductors & Electronics | Textiles, Leather & Paper | Tooling & Machinery | Ground Transportation | Space & Aviation | Military & Defense | Energy | By Materials | Ceramics | Composites | Glass | Metals | Oils & Liquids | Organic & Bio Materials | Polymers | Rocks & Minerals | About Us | Company | Contact | Careers | Events | Press | NANOINDENTATION & SCRATCH TESTING | LAB SERVICES & CONSULTING | MECHANICALTESTING | NANO & MICRO | MICRO & NANOINDENTATION TESTING | SCRATCH TESTING | STANDARD | and other ISO & ASTM standards | Indentation | Hardness & Elastic Modulus | Fracture Toughness | Yield Strength & Fatigue | Creep & Relaxation | Stress vs Strain | Loss & Storage Modulus | Scratch | Cohesive Failure | Adhesive Failure | Scratch Hardness | Multi-Pass Wear | Friction | Coefficient of Friction | ENVIRONMENTAL MODULES | HIGH TEMP | LOW TEMP | LIQUID | HUMIDITY | VACUUM | The Most Advanced Mechanical TestersNano Piezo Technology Fully Automated | NANOVEA | MECHANICAL TESTERS | Application Notes | PTFE Coating Wear Test | Dynamic Mechanical Analysis of Cork Using Nanoindentation | Nano Scratch & Mar Testing of Paint on Metal Substrate | High Temperature Scratch Hardness using a Tribometer | Industrial Coatings Scratch and Wear Evaluation | Scratch Hardness Measurement using Mechanical Tester | Titanium Nitride Coating Scratch Test | Adhesion Properties of Gold Coating on Quartz Crystal Substrate | The World’s Leading Micro Mechanical Tester | PROFILOMETERS | MECHANICAL TESTERS | TRIBOMETERS
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Application Notes | NANOVEA
Products | Profilometers | PS50 (Advanced Compact) | JR25 (Portable Compact) | ST400 (Modular Standard) | AFMPRO (Atomic Force) | ST500 (Modular Large Area) | JR100 (Portable High Speed) | In-Line QC (Roughness, Texture & Finish) | Mechanical Testers | CB500 (Advanced Compact) | PB1000 (Large Platform) | Vacuum Systems (Custom) | Tribometers | T50 (Modular Standard) | T100 (Compact Pneumatic) | T2000 (High Load Pneumatic) | CR-8R (Ball Cratering Coating Thickness) | Vacuum Systems (Custom) | Testing Solutions | Profilometry | Roughness & Finish | Geometry & Shape | Flatness & Warpage | Volume & Area | Step Height & Thickness | Texture & Grain | Mechanical Testing | Indentation | Hardness & Elastic | Indentation | Stress vs Strain | Indentation | Creep & Relaxation | Indentation | Loss & Storage | Indentation | Fracture Toughness | Indentation | Yield Strength & Fatigue | High Temperature | Humidity | Scratch | Adhesive Failure | Scratch | Cohesive Failure | Scratch | Scratch Hardness | Scratch | Multi-Pass Wear | Friction | Coefficient of Friction | Low Temperature | Liquid | Vacuum | Tribology Testing | Linear | Rotational | Block on Ring | Ring on Ring | Scratch Testing | High Temperature | Corrosion | Liquid | Low Temperature | Humidity & Inert Gases | Vacuum | Lab Services | Non-Contact Profilometry Analysis | Indentation & Scratch Testing | Friction & Wear Testing | Surface Topology & Chemical Analysis | Applications | By Industry | Bio & Biotechnology | Construction Materials | Consumer Products | Medical Devices | Metal Manufacturing & Machining | Oil & Mines | Optics | Paint & Coating | Pharmaceutical | Semiconductors & Electronics | Textiles, Leather & Paper | Tooling & Machinery | Ground Transportation | Space & Aviation | Military & Defense | Energy | By Materials | Ceramics | Composites | Glass | Metals | Oils & Liquids | Organic & Bio Materials | Polymers | Rocks & Minerals | About Us | Company | Contact | Careers | Events | Press | Category: Application Notes | PTFE Coating Wear Test | PTFE COATING WEAR TEST | USING TRIBOMETER AND MECHANICAL TESTER | INTRODUCTION | IMPORTANCE OF QUANTITATIVE EVALUATION OF PTFE COATINGS | WEAR TEST | LINEAR RECIPROCATING WEAR USING A TRIBOMETER | WEAR TEST PARAMETERS | SCRATCH TEST | MICRO SCRATCH ADHESION TEST USING MECHANICAL TESTER | SCRATCH TEST PARAMETERS | RESULTS & DISCUSSION | LINEAR RECIPROCATING WEAR USING A TRIBOMETER | PTFE Before breakthrough | PTFE After breakthrough | RESULTS & DISCUSSION | MICRO SCRATCH ADHESION TEST USING MECHANICAL TESTER | CONCLUSION | NOW, LET'S TALK ABOUT YOUR APPLICATION | Progressive Wear Mapping of Flooring using Tribometer | Progressive Wear Mapping of Flooring | Using Tribometer with integrated Profilometer | Prepared by | FRANK LIU | INTRODUCTION | IMPORTANCE OF PROGRESSIVE WEAR MAPPING FOR FLOOR PANELS | WEAR MAPPING TEST PARAMETERS | WEAR MAPPING RESULTS | WEAR MAPPING RESULTS | DISCUSSION | CONCLUSION | NOW, LET'S TALK ABOUT YOUR APPLICATION | Dynamic Mechanical Analysis of Cork Using Nanoindentation | DYNAMIC MECHANICAL ANALYSIS | OF CORK USING NANOINDENTATION | Prepared by | FRANK LIU | INTRODUCTION | IMPORTANCE OF DYNAMIC MECHANICAL ANALYSIS (DMA) TESTING IN ASSESSING CORK MECHANICAL PROPERTIES | TEST PARAMETERS | RESULTS | CONCLUSION | NOW, LET'S TALK ABOUT YOUR APPLICATION | Nano Scratch & Mar Testing of Paint on Metal Substrate | Nano Scratch & Mar Testing | of Paint on Metal Substrate | Prepared by | SUSANA CABELLO | INTRODUCTION | IMPORTANCE OF NANO SCRATCH TESTING FOR QUALITY CONTROL | TEST PARAMETERS | RESULTS | CONCLUSION | NOW, LET'S TALK ABOUT YOUR APPLICATION | Roughness Mapping Inspection using 3D Profilometry | ROUGHNESS MAPPING INSPECTION | USING 3D PROFILOMETRY | Prepared by | DUANJIE, PhD | INTRODUCTION | IMPORTANCE OF 3D NON-CONTACT PROFILOMETER FOR IN-LINE SURFACE INSPECTION | RESULTS & DISCUSSION | CONCLUSION | NOW, LET'S TALK ABOUT YOUR APPLICATION | High Temperature Scratch Hardness using a Tribometer | HIGH TEMPERATURE SCRATCH HARDNESS | USING A TRIBOMETER | Prepared by | DUANJIE, PhD | INTRODUCTION | IMPORTANCE OF SCRATCH HARDNESS MEASUREMENT AT HIGH TEMPERATURES | TEST CONDITIONS | RESULTS & DISCUSSION | CONCLUSION | NOW, LET'S TALK ABOUT YOUR APPLICATION | Weld Surface Inspection Using a Portable 3D Profilometer | WELd surface inspection | using a portable 3d profilometer | Prepared by | CRAIG LEISING | INTRODUCTION | IMPORTANCE OF 3D NON-CONTACT PROFILOMETER FOR WELD SURFACE INSPECTION | TEST RESULTS | CONCLUSION | NOW, LET'S TALK ABOUT YOUR APPLICATION | Industrial Coatings Scratch and Wear Evaluation | INDUSTRIAL COATING | SCRATCH AND WEAR EVALUATION USING A TRIBOMETER | Prepared by | DUANJIE LI, PhD & ANDREA HERRMANN | INTRODUCTION | IMPORTANCE OF SCRATCH AND WEAR TESTING FOR QUALITY CONTROL | MEASUREMENT OBJECTIVE | TEST PROCEDURE | WEAR TEST | WEAR TEST PARAMETERS | SCRATCH TEST | SCRATCH TEST PARAMETERS | WEAR TEST RESULTS | WEAR TEST RESULTS | CONCLUSION | NOW, LET'S TALK ABOUT YOUR APPLICATION | Scratch Hardness Measurement using Mechanical Tester | SCRATCH HARDNESS MEASUREMENT | USING A MECHANICAL TESTER | Prepared by | DUANJIE LI, PhD | INTRODUCTION | TEST CONDITIONS | RESULTS & DISCUSSION | CONCLUSION | NOW, LET'S TALK ABOUT YOUR APPLICATION | Titanium Nitride Coating Scratch Test | TITANIUM NITRIDE COATING SCRATCH TEST | QUALITY CONTROL INSPECTION | Prepared by | DUANJIE LI, PhD | INTRODUCTION | IMPORTANCE OF TiN COATING SCRATCH TESTING | TEST CONDITIONS | RESULTS & DISCUSSION | CONCLUSION | NOW, LET'S TALK ABOUT YOUR APPLICATION | Categories | Archives
How many employees does Nanovea, Inc. approximately have?
As of the latest available information Nanovea, Inc. has around 11-50 employees worldwide.
When was Nanovea, Inc. founded?
Nanovea, Inc. was founded in 2004
In which industries does Nanovea, Inc. mainly work?
The company Nanovea, Inc. has it's main focus in the industries of Hardware, Science and Engineering, Others, Manufacturing, Consumer Electronics
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