Quality Assurance for Precision manufacturing
We ensure top-tier product quality through strict controls, advanced testing, and continuous improvement to meet industry standards and customer expectations.
Key Aspects of Our Quality Assurance:
- Strict Quality Control: Inspections at every production stage.
- Advanced Testing: Ensuring performance and compliance.
- Process Standardization: Following international quality standards.
- Continuous Improvement: Enhancing efficiency and quality.
- Defect Prevention: Minimizing errors and rework.
- Customer Satisfaction: Delivering reliable and high-quality products.
Quantité Minimale de Commande (MOQ)
Nous offrons une commande minimale flexible pour répondre aux demandes petites ou de prototypes.
Total des pièces produites
Cette métrique indique le total des pièces produites, démontrant notre efficacité
Variété de Design
Choisissez parmi plus de 6 000 designs uniques pour tous les goûts.
Disponibilité d'expédition
Nous offrons une expédition mondiale pour une accessibilité globale.
Precision Inspection Equipment
Utilizing state-of-the-art inspection equipment to ensure the highest level of accuracy, consistency, and quality in our manufacturing processes. Our advanced measurement tools verify part dimensions, assess material composition, and ensure compliance with design specifications. These technologies play a crucial role in maintaining strict quality control, minimizing defects, and optimizing production efficiency.
Key Inspection Equipment & Capabilities:
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Coordinate Measuring Machines (CMM):
- Captures precise data points to measure part dimensions.
- Ensures accuracy in complex geometries and critical tolerances.
- Used for both molding and verifying finished parts.
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Optical Comparators (Projectors):
- Uses illumination to magnify and measure small components.
- Compares part dimensions with CAD drawings for accuracy.
- Ideal for inspecting intricate shapes and fine details.
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X-Ray Fluorescence (XRF):
- Non-destructive method to analyze material composition.
- Uses short-wave X-rays or gamma rays for qualitative and quantitative analysis.
- Ensures compliance with material standards and specifications.
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Surface Roughness Testers:
- Measures texture and surface finish consistency.
- Ensures compliance with required roughness levels for functionality and aesthetics.
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Thread Gauges & Plug Gauges:
- Verify the accuracy and consistency of internal and external threads.
- Ensure proper fit and function for fasteners and threaded components.
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Hardness Testers:
- Assess material strength and resistance to deformation.
- Ensure parts meet durability and performance standards.
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Laser & 3D Scanners:
- Provide non-contact, high-precision measurements.
- Capture complex surface profiles for detailed analysis.
Comprehensive Parts Verification Program
Our Parts Verification Program is a crucial step in ensuring precision, consistency, and quality before moving into full-scale production. Designed as an enhanced version of the First Article Inspection (FAI), this program is a standard procedure for injection molding projects and is available for CNC machining orders exceeding 100 units. It helps identify potential issues early, reducing risks and ensuring products meet exact specifications.
Key Features of the Parts Verification Program:
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Pre-Production Validation:
- Ensures all parts meet dimensional and functional requirements before mass production.
- Ideal for detecting inconsistencies, material concerns, or machining issues.
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Dual-Part Shipment for Customer Testing:
- Two sets of sample parts are sent to the customer for review.
- Enables real-world testing and verification before final approval.
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Flexible Design Modifications:
- Customers can submit revised drawings for adjustments if needed.
- Minor design changes can be integrated smoothly, while extensive modifications may impact cost and production timelines.
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Enhanced Quality Assurance:
- Ensures compliance with ISO 9001:2015 and industry standards.
- Reduces the risk of defects and costly reworks by addressing issues at an early stage.
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CNC Machining & Injection Molding Compatibility:
- Standard for injection molding projects to verify mold accuracy.
- Available for CNC machining orders exceeding 100 units to confirm production feasibility.
Matériaux d'Usinage de Précision : Titane, Inconel 718 et Laiton
D3 is a high carbon, high chromium tool steel known for its excellent wear resistance and ability to maintain a sharp edge. It is commonly used for cutting tools, dies, and industrial applications requiring high durability.
Subtypes:
- D3 (Standard)
- D3 Cold Work Tool Steel
Pre-Hardened Tool Steel
P21 is a pre-hardened tool steel that offers good machinability and wear resistance. It is ideal for making molds and dies, as it doesn’t require extensive heat treatment.
Subtypes:
- P21 (Standard)
- P21+ (Improved)
Hot Work Tool Steel
H11 is a hot work tool steel known for its toughness and thermal fatigue resistance. It is used in applications involving high temperatures, such as die casting and forging.
Subtypes:
- H11 (Standard)
- H11A (Modified for improved toughness)
Polyoxymethylene (Acetal)
POM is a high-performance engineering thermoplastic known for its low friction, high stiffness, and excellent dimensional stability. It’s widely used in precision parts and mechanical components.
Subtypes:
- POM-C (Copolymer)
- POM-H (Homopolymer)
Polyamide (Nylon)
PA is a versatile synthetic polymer known for its high strength, toughness, and excellent chemical and wear resistance, commonly used in textiles, automotive components, and industrial applications.
Subtypes:
- PA(Nylon) Blue
- PA6 (Nylon)+GF15 Black
- PA6 (Nylon)+GF30 Black
- PA66 (Nylon) Beige (Natural)
- PA66 (Nylon) Black
Polypropylene
PP is a lightweight, durable thermoplastic known for its chemical resistance and versatility. It is widely used in packaging, automotive parts, and consumer goods.
Subtypes:
- PP Homopolymer
- PP Copolymer
High-Density Polyethylene
HDPE is a strong and versatile thermoplastic known for its high strength-to-density ratio. It is commonly used in containers, piping, and plastic bottles.
Subtypes:
- HDPE (Standard)
- HDPE (Recycled)
Low-Density Polyethylene
LDPE is a flexible and durable thermoplastic known for its low density and high chemical resistance. It is often used in packaging films and bags.
Subtypes:
- LDPE (Standard)
- LDPE (Recycled)
Polycarbonate
PC is a strong, impact-resistant thermoplastic known for its clarity and heat resistance. It is commonly used in eyewear lenses, safety equipment, and electronic components.
Subtypes:
- PC (Standard)
- PC (Flame Retardant)
High-Impact Polystyrene
HIPS is a tough and impact-resistant thermoplastic known for its ease of processing and good surface finish. It is commonly used in consumer products and packaging.
Subtypes:
- HIPS (Standard)
- HIPS (Recycled)
Polybutylene Terephthalate
PBT is a thermoplastic engineering polymer known for its excellent mechanical properties and chemical resistance. It is often used in automotive and electrical applications.
Subtypes:
- PBT (Standard)
- PBT (Reinforced)
Polyamide-imide
PAI is a high-performance thermoplastic known for its excellent thermal stability and mechanical properties. It is used in high-temperature applications and aerospace components.
Subtypes:
- PAI (Standard)
- PAI (Filled)
High-Speed Steel
M2 is a high-speed steel known for its high hardness, wear resistance, and ability to retain hardness at elevated temperatures. It is commonly used for cutting tools and drills.
Subtypes:
- M2 (Standard)
- M2 (Coated)
High-Speed Steel
HSS is a high-performance tool steel known for its ability to cut at high speeds without losing hardness. It is widely used in manufacturing cutting tools.
Subtypes:
- HSS (Standard)
- HSS (Coated)
Polyether Ether Ketone
PEEK is a high-performance thermoplastic known for its excellent chemical resistance and thermal stability. It is used in specialized applications such as aerospace and medical devices.
Subtypes:
- PEEK (Standard)
- PEEK (Reinforced)
Polymethyl Methacrylate
PMMA is a transparent thermoplastic known for its clarity and UV resistance. It is commonly used as a lightweight alternative to glass in various applications.
Subtypes:
- PMMA (Standard)
- PMMA (Impact Resistant)
Polytetrafluoroethylene (Teflon)
PTFE is a high-performance fluoropolymer known for its non-stick properties and chemical resistance. It is widely used in coatings, seals, and gaskets.
Subtypes:
- PTFE (Standard)
- PTFE (Filled)
Sélection de Matériaux CNC Personnalisés – Choisissez parmi ..
Sélection de Matériaux CNC Personnalisés – Choisissez parmi ..
Finitions de Surface en Usinage CNC
Nous proposons des finitions pour l'esthétique et la performance : anodisation, polissage, sablage, revêtements et traitement thermique. Trouvons celle qui convient !
Tel que usiné
Cette finition usinée est rugueuse et présente des marques d'outils, représentant la forme la plus basique de traitement de surface sans finition ni polissage supplémentaires.
Anodisation
"Il crée une couche d'oxyde protectrice sur l'aluminium, augmentant la résistance à la corrosion et la dureté, et permettant la teinture pour améliorer l'apparence."
Polissage
"Le polissage lisse les surfaces à un haut éclat, améliorant l'apparence et réduisant la rugosité tout en offrant une certaine protection contre la corrosion."
Finition Brossée
"Une finition brossée présente de fines lignes parallèles pour un aspect texturé, améliorant la prise et réduisant les empreintes digitales."
Sablage
Le sablage utilise de l'air à haute pression et des particules abrasives pour nettoyer ou texturer les surfaces, améliorant l'adhérence des revêtements.
Électropolissage
L'électropolissage est un processus électrochimique qui lisse et éclaircit les surfaces métalliques, éliminant les imperfections et améliorant la résistance à la corrosion.
Quality Control Measures
Pre-Production Assessment
We conduct a detailed pre-production assessment to ensure material and design feasibility while identifying potential risks early in the development process.
Key Aspects of Our Pre-Production Assessment:
- Material Verification: Ensuring the right materials for durability and performance.
- Structural Evaluation: Assessing component design and compatibility.
- Process Review: Analyzing manufacturing feasibility and efficiency.
- Risk Assessment: Identifying potential production challenges.
- Requirement Validation: Ensuring all specifications can be met before production begins.
Material Receiving Inspection
We conduct inbound inspections to ensure materials align with production requirements. Material certification is available upon request, detailing composition and properties.
Key Aspects of Material Receiving Inspection:
- Material Verification: Ensuring consistency with production schedules.
- Certification Availability: Providing detailed material reports upon request.
- Grade & Composition Check: Confirming chemical and physical properties.
- Dimensional Inspection: Verifying size and tolerance accuracy.
- Traceability: Tracking heat numbers for quality assurance.
Production Quality Monitoring
Final Quality Inspection
Our outbound inspection ensures product quality and proper packaging before shipment. Reports are available upon request, detailing dimensions, tolerances, and packaging integrity.
Key Aspects of Outbound Inspection:
- Dimensional Report: Verifying critical measurements and tolerances.
- Quantity Check: Ensuring the correct number of parts per order.
- Surface & Thread Inspection: Examining depth, thickness, and threading.
- Packaging Certification: Guaranteeing safe and damage-free transit.
- Detailed Documentation: Providing inspection reports upon request.
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