Orifice Plate Introduction- The Opening Where Ions Enter The Mass Spectrometer

Product Details
Application: High-Pressure Seals, Mechanical Seals, Rotary Seals
Material: Alumina Ceramic
Compressive Strength: 2300MPa
Manufacturer/Factory & Trading Company

360° Virtual Tour

Diamond Member Since 2024

Suppliers with verified business licenses

Audited Supplier

Audited by an independent third-party inspection agency

Self-branded
The supplier has 2 Self-brands, check the Audit Report for more information
QA/QC Inspectors
The supplier has 3 QA and QC inspection staff
R&D Capabilities
The supplier has 2 R&D engineers, you can check the Audit Report for more information
Product Certification
The supplier's products already have relevant certification qualifications, including:
CE
to see all verified strength labels (26)
  • Orifice Plate Introduction- The Opening Where Ions Enter The Mass Spectrometer
  • Orifice Plate Introduction- The Opening Where Ions Enter The Mass Spectrometer
  • Orifice Plate Introduction- The Opening Where Ions Enter The Mass Spectrometer
  • Orifice Plate Introduction- The Opening Where Ions Enter The Mass Spectrometer
  • Orifice Plate Introduction- The Opening Where Ions Enter The Mass Spectrometer
  • Orifice Plate Introduction- The Opening Where Ions Enter The Mass Spectrometer
Find Similar Products

Basic Info.

Chemical Resistance
Excellent
Mechanical Strength
Excellent
Color
Metal+White
Thermal Conductivity
25W/(M.K)
Processing Service
Moulding
Max. Use Temperature
1600ºC
Density
3.7g/cm3
Material Composition
Alumina, Al2O3
Speciality
High Insulation
Type
Ceramic-to-Metal
Transport Package
Carton Packing
Specification
Customized
Trademark
INNOVACERA
Origin
Fujian, China

Product Description

 

Ceramic to metal seals are hermetic joints created by fusing ceramic components to metal substrates using a variety of joining techniques. These seals are renowned for their exceptional heat resistance, chemical stability, and mechanical durability. They're able to withstand extreme temperatures and harsh environments, making them ideal for use in high-performance applications.

Brazing Technology is a crucial aspect of the manufacturing process of ceramic to metal seals. 
Brazing involves the use of a filler metal, which has a lower melting point than the base materials, to bond the ceramic and metal components together. This process creates a strong, reliable joint that maintains the integrity of both materials.

Material
Alumina/BeO/AlN
Coating Layer
Mo/Mn
Thickness:8-30μm
Plated Layer
Nickel, Copper, Gold, etc. 
Thickness: 2-9μm
Treatment
Glazed, polishing
Dimension
Customized
Joining types
Ceramic + Mo/Mn Metallized + plating Ni
Ceramic + Mo/Mn Metallized + plating Ag
Ceramic + Mo/Mn Metallized + plating Au
Ceramic + printing Ag
 
Orifice Plate Introduction- The Opening Where Ions Enter The Mass Spectrometer

Application

> Feedthrough
> Metal/alloy ceramic metallized
> Screen Printing
> Roll Printing
> Hand Painting
> Air Brush Spraying
> Immersion
> Centrifugal Coating
> Needle Painting

Orifice Plate Introduction- The Opening Where Ions Enter The Mass Spectrometer
Orifice Plate Introduction- The Opening Where Ions Enter The Mass Spectrometer
 
Alumina Ceramic Properties
Properties
Units
Alumina Ceramic
Purity
wt%
95%
99%
99.8%
Volume Density
g/cm3
3.65
3.8
≥3.89
Water Absorption
%
0
0
0
Crystal Size(Grain Size)
μm
4-5
4-5
4-5
Vickers Hardness, HV1.0
Gpa
14
1600
≥15
Flexural Strength
Mpa
300
310
≥300
Coefficient of Linear
Expansion
20-500ºC
1x10-6 mm/ºC
6.5-7.5
6.5-7.5
6.5~7.5
20-800ºC
6.5-8.0
6.5-8.0
6.5~8.0
Thermal Conductivity
W/m·K( 20ºC)
20
25
≥20.9
Specific Heat Capacity
KJ/(kg·K)
≥0.8
≥0.8
≥0.8
Dielectric Strength
KV/mm
≥12
15*106
≥12
Volume Resistivity
Ω·cm 20ºC
≥1014
≥1014
≥1014
Ω·cm 300ºC
≥1011
≥1011
≥1011
Ω·cm 500ºC
≥109
≥109
≥109
Dielectric Constant
1MHz
9
9-10
9-10
Tangent of Dielectric Loss
1MHz
≤4x10-4
≤2x10-4
≤3x10-4
Surface Roughness
μm
0.4 After Machine
0.1-0.4 After Machine
0.1-0.4 After Machine
Max Working Temperature
ºC
1600
1600
1650
Orifice Plate Introduction- The Opening Where Ions Enter The Mass SpectrometerOrifice Plate Introduction- The Opening Where Ions Enter The Mass SpectrometerOrifice Plate Introduction- The Opening Where Ions Enter The Mass SpectrometerOrifice Plate Introduction- The Opening Where Ions Enter The Mass SpectrometerOrifice Plate Introduction- The Opening Where Ions Enter The Mass SpectrometerOrifice Plate Introduction- The Opening Where Ions Enter The Mass SpectrometerOrifice Plate Introduction- The Opening Where Ions Enter The Mass SpectrometerOrifice Plate Introduction- The Opening Where Ions Enter The Mass SpectrometerOrifice Plate Introduction- The Opening Where Ions Enter The Mass Spectrometer

Send your message to this supplier

*From:
*To:
*Message:

Enter between 20 to 4,000 characters.

This is not what you are looking for? Post a Sourcing Request Now
Contact Supplier