Friday, May 29, 2015

Tuesday, May 19, 2015

ZERODUR

ZERODUR
ZERODUR® is a glass ceramic characterized by a phase of evenly distributed nano-crystals within a residual glass phase. It contains around 75 weight percent crystalline phase with a high quartz structure. The crystal structure has a negative linear thermal expansion, while the other glass phase has a positive linear thermal expansion. The material is adjusted in a way that the positive thermal expansion of the glass phase and the negative thermal expansion of crystal structure effectively neutralize each other. The crystals are typically only 50 nm in diameter, and ZERODUR appears reasonably transparent because the refractive indices of the two phases are almost identical. The most important properties of zerodur are: 
  • Nearly zero thermal expansion
  • Excellent homogeneity
  • High internal quality
  • Outstanding chemical stability
  • Polishable to a high accuracy
  • Good processing behavior
  • Low helium permeability
Figure 1&2 and table 1 give an overview of ZERODUR’s properties. 
Figure 1: External transmittance curve of ZERODUR at sample thickness of 5 mm and 25 mm.
Figure 2: Thermal expansion coefficient curve of ZERODUR as a function of temperature.
Optical Properties
Wavelength(um)656.27643.85587.56546.07486.13479.99435.83
Designated LetterCC'deFF'g
Refractive Index1.53941.53991.54241.54471.54911.54971.5544
AbbeNumber56.155.9
Mechanical Properties and Chemical Properties
Density(g/cm3)Poisson's RatioKnoopHardnessYoung's Moduluds (GPa)AcidResistance ClassAlkaliResistance ClassClimaticResistance ClassStainResistance Class
2.53
0.2462090.31110
Table 1:ZERODUR Properties
Low Expansion Materials :  
ZERODUR® is a registered trademark of Schott Glass Technologies. 

Friday, May 15, 2015

Wednesday, May 13, 2015

Wafer lapping ,polishing ,thinning ceramic plate

Wafer lapping ,polishing ,thinning ceramic plate
















Key Features 


· Material
   99.8% Alumina,high density,high hardness and good thermal conductitivity 

· Tolerance
   High flatness,parallelism ,roughness and micro constructure 
 
· Efficiency
   Contract manufacturing on associated variety of shapes,sizes and retain regular sizes in stock
 
· Cost   
    Total cost ownership commitment with swift responding,consistent cost reduction and overal design and development


Friday, May 8, 2015

Thin Film or Wafer Carriers

Thin Film or Wafer Carriers

Sapphire material is now widely used in optical and semiconductor industry, with hardness second only to diamond and chemical and scratch resistance and thermal stability ,it is superior to other materials such as quartz.

Sapphire carrier are used to hold and transport thin film processing of silicon,GaAs other semiconductor wafers and flexible substrates.

All thin substrate carriers are ultra flat and can be supplied with or without custom perforated holes,other option of porous ceramic is also our expertise.

Current sizes are available typically from 2" to 12" dia with flatness and parallelism of 0.002-0.005mm, large size till 20 inches is also  successfully prototyped.