prodotti

Casa. > prodotti > Braccio Ceramico > 3D-Printed Ceramic Arm High-Strength And High-Temperature Resistance

Categorie

ceramica di biossido di zirconio

(24)

Ceramica del nitruro di silicio

(68)

tubi di ferro o di acciaio

(10)

Contatti

Contatti: Ms. Lu

Telefono: 86-579-82791257

Fax: 86-579-82791257

Contatta ora

Spedicaci

3D-Printed Ceramic Arm High-Strength And High-Temperature Resistance

Dettagli del prodotto

Luogo di origine: MADE IN CHINA

Marca: Dayoo

Termini di pagamento e di spedizione

Ottieni il miglior prezzo

Dettagli del prodotto

Descrizione del prodotto

Evidenziare: 
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                3D-printed ceramic arm high-strength, ceramic arm high-temperature resistance, 3D-printed high-strength ceramic arm
                              

Resistenza dielettrica:	10 kV/mm	Temperatura:	1600 ℃
Porosità indicata:	＜ 0,2%	Resistenza a compressione:	2.000 MPA
Resistenza meccanica:	Alto	Finitura superficiale:	Liscio
Resistenza alla temperatura:	Fino a 1.400 ° C.	Resistenza alla corrosione:	Eccellente
Applicazione:	forni	Espansione termica:	4.3 x 10-6/k
Forma:	Richiesta dei clienti	Temperatura massima:	1380 ℃
Controllo della qualità:	Ispezione al 100%	Stabilità dimensionale:	Eccellente
Resistenza all'abrasione:	Eccellente

Resistenza dielettrica:	10 kV/mm
Temperatura:	1600 ℃
Porosità indicata:	＜ 0,2%
Resistenza a compressione:	2.000 MPA
Resistenza meccanica:	Alto
Finitura superficiale:	Liscio
Resistenza alla temperatura:	Fino a 1.400 ° C.
Resistenza alla corrosione:	Eccellente
Applicazione:	forni
Espansione termica:	4.3 x 10-6/k
Forma:	Richiesta dei clienti
Temperatura massima:	1380 ℃
Controllo della qualità:	Ispezione al 100%
Stabilità dimensionale:	Eccellente
Resistenza all'abrasione:	Eccellente

3D-Printed Ceramic Arm High-Strength And High-Temperature Resistance

Product Description

3D-printed ceramic robotic arms are high-performance robotic components manufactured using advanced additive manufacturing technology. Made primarily from alumina (Al₂O₃) or silicon carbide whisker-reinforced ceramics, they offer exceptional mechanical strength, high-temperature resistance, and chemical stability. This technology combines the flexibility of 3D printing with the superior properties of ceramic materials, making them ideal for high-precision, high-load industrial automation applications.

Applications

Industrial Automation: End-effectors for robotic arms in high-temperature or corrosive environments
Semiconductor Manufacturing: Wafer handling and precision assembly
Medical Robotics: Surgical instrument arms and high-precision positioning systems
Aerospace: High-temperature robotic arms for extreme environment operations
Scientific Research: Customized robotic arm structures with optimized mechanical properties

Advantages

High Strength (Silicon carbide whisker-reinforced, flexural strength up to 300-400 MPa)
High-Temperature Resistance (Long-term use at 1600°C+)
Lightweight (Density 3.6-3.9 g/cm³, lighter than metal arms)
Corrosion Resistance (Resistant to acids, alkalis, and oxidation)
Customizable Design (3D printing enables complex, integrated structures)

Specifications

Parameter	Typical Value
Material	Alumina (Al₂O₃), Silicon Carbide Whisker-Reinforced Ceramic
Printing Technology	DIW-3D Printing / SLA 3D Printing
Max. Temperature Resistance	1600°C-1800°C
Flexural Strength	300-400 MPa
Density	3.6-3.9 g/cm³
Precision	±0.1mm (SLA 3D Printing)
Operating Environment	High-temperature, corrosive, high-vacuum

Manufacturing Process

Material Preparation: Ball milling of alumina powder + silicon carbide whiskers
3D Printing: Direct Ink Writing (DIW) or Stereolithography (SLA)
Debinding: Gradual heating to remove organic binders
High-Temperature Sintering: Densification at 1600°C-1800°C
Precision Machining: CNC grinding and polishing for surface refinement

Usage Guidelines

Avoid Impact: Ceramic materials are brittle--handle with care

Temperature Control: Heating rate ≤5°C/min to prevent thermal shock

Installation: Use elastic gaskets to absorb mechanical stress

Maintenance: Regularly inspect for surface wear and avoid overloading

After-Sales Service

Technical Support (3D model optimization advice)
Customization (Special sizes and structural designs available)

FAQ

Q: What is the lifespan of 3D-printed ceramic robotic arms?

A: Under normal conditions, they can last over 5 years--far exceeding traditional metal arms.

Q: Can large robotic arms be printed?

A: Yes, hybrid additive-subtractive manufacturing enables large-scale printing.

Q: Are conductive ceramics available?

A: Custom ceramic composites with conductive additives can be produced.

Tags:

Bracci robotici ceramici stampati in 3D ad alta efficienza per cleanroom nelle industrie alimentari, farmaceutiche e biotecnologiche

Ottieni il miglior prezzo

Armi robotiche in ceramica stampate in 3D ad alta efficienza per l'industria alimentare, farmaceutica e biotecnologica

Ottieni il miglior prezzo

Armi robotiche in ceramica stampate in 3D leggere e durevoli per l'automazione industriale

Ottieni il miglior prezzo

Allumina ceramica

ceramica di biossido di zirconio

Ceramica del nitruro di silicio

Carburo di silicio Ceramiche

Travi in ceramica

Braccio Ceramico

tubi di ferro o di acciaio

3D-Printed Ceramic Arm High-Strength And High-Temperature Resistance