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Quartz glass tubes

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Product description Technical data Video

Tubes made of transparent quartz glass

We offer quartz tubes of different diameters and thicknesses made of various types of quartz glass. Typically are available pipes made of the following types of quartz glass (see the properties of the JGS type quartz glass described here):

  1. JGS-2 (UV optical quartz glass). It is an optical quartz glass made by oxyhydrogen flame melting and is suggested for applications in the wavelength range of 220-2500 nm !
  2. Ozone free quartz.  It is clear quartz tube doped with Ti. Has a strong ability to prevent dense UV radiation but release no ozone.  Ozone-free quartz tubing is clear, with cut surface slight purple. The product blocks wavelength < 220 nm, while transmit over 70% in 253.7 nm. Good for all kinds of germcidal lamps.
  3. UV stop quartz tubes. It is the best materials to prevent UV with best transparent performance. This cerium-added quartz tube can effectively prevent all radiation of UV-B and UV-C ultraviolet and most radiation of UV-A ultraviolet. It can be used to make quartz halogen lamp , gas discharge lamp and other UV lamp-house, which will effectively protect human and object from hurt of ultraviolet and maintain the best efficiency of light transmission.

Typical pipe length is 1240 mm, but usually we deliver it cropped according to customer requirements.

Milky / Opaque / Satin quartz tubes

The opaque quartz tubes comes from quartz sands of high purity when reduced to a molten state at a temperature of approximately 2000° C. The high temperature produces a vitreous material characterized by the presence of a multitude of gaseous micro-bubbles. These bubbles diffract light, giving the material its opacity. The term opaque silica is mainly used for molded or centrifuged parts, while the product obtained by drawing is normally referred to as translucent.

Opaque quartz glass, due to the scattering of light in the micropores, is a very good thermal insulator, blocks infrared (IR) radiation, has a microporous structure with a high density and smooth surface. It is opaque, it can be used at high temperatures (constant operating temperature up to 1100 ° C) and chemically aggressive environments.

Available dimensions:

  • diameters: 6 mm - 80 mm
  • wall thickness: 0.5 mm - 5 mm

Choose the right inner diameter (ID), the outer diameter (OD) available for it, the required length (L) and the number of pieces, and then place your order by email or via the contact form.

Properties and chemical composition of opaque quartz as well as other types of quartz glass, are discussed in detail in chapter Our offer/Technical glass/Types of materials/Quartz glass.

Properties of different types of glasses are discussed here. Bellow are shown properties of Milky Quartz Glass (called also: Opaque Quartz Glass or Satin Quartz Glass):

Milky (Opaque, Satin) Quartz Glass JGSM

The opacity of a quartz glass is obtained by adding the air during the melting process of silica sand. At a temperature of approx. 2000 ° C produced a glassy material with lots of bubbles, causing light scattering and opacity suitable material.

The quality of the material is determined by the uniformity of distribution of bubbles, their size and shape. Many small vesicles (approx. 10 µm) scatter light better than bubbles large and very few (eg. 50 - 150 microns) - giving an opacity effect worse, especially at small thicknesses of material.

Milky quartz, known also as Opaque Quartz Glass or Satin Quartz Glass, due to scattering of radiation in the micropores, is a very good thermal insulator, blocks IR, has a microporous structure with a high density and smooth surface. It can be machined at a reasonable cost. It is opaque, it can be used at high temperatures (constant operating temperature up to 1100 ° C) and chemically aggressive environments.

Low porosity of the material allows to obtain properties similar to fused quartz, while the possibility of gas welding without material shrinkage smooth and without joints. It can be combined with a transparent quartz.

If applied flame polishing, the surface micropores disappears  (cicatrize), creating a clean, smooth surface. Does not arise the "orange peel" effect. In addition to improving cosmetic appearance, smoother surface allows the use of thin seals in vacuum applications. In addition, reduced porosity increases the resistance of the material of hydrofluoric acid (HF). Flame smoothed surfaces are smooth, even after long-term HF acid.

The advantages of material:

  • excellent thermal insulator
  • blocking UV and IR
  • high maximum operating temperature
  • very smooth surface
  • high chemical purity
  • high chemical resistance
  • good mechanical resistance
  • does not shrink during fire polishing,
  • can be easily welded to the transparent quartz,
  • easy sealing in high pressure applications.

Resistance to 5% hydrofluoric acid (HF)

Specialized applications requiring increased chemical and thermal resistance, high and uniform level of light scattering should be based on the use of materials produced by recognized manufacturers such as Heraus (OM100, RotoSil   OFM 70, OFM 370, 970 OFM OSC) or Momentive (GE514, GE544). 

 

Typical dimensions and tolerances

ID
[mm]		 OD
[mm]		   ID
[mm]		 OD
[mm]		   ID
[mm]		 OD
[mm]		   ID
[mm]		 OD
[mm]
1,00 2,00   8,00 10,00   18,00 20,00   35,00 38,00
3,00   11,00   20,50   40,00
4,00   12,00   21,00   36,00 40,00
5,00   9,00 11,00   21,60   37,00 40,00
6,00   11,80   19,00 22,00   38,10 42,10
2,00 3,00   13,00   25,00   40,00 43,00
4,00   15,00   20,00 22,00   44,00
5,00   10,00 12,00   22,50   45,00
6,00   13,00   23,00   46,00
8,00   14,00   24,00   42,00 45,00
2,30 6,30   10,50 12,75   24,50   46,00
3,00 4,00   13,00   25,00   44,00 48,00
5,00   15,80   22,00 24,00   45,00 48,00
6,00   11,00 13,00   24,50   46,00 50,00
8,00   15,00   25,00   47,00 50,00
3,60 8,00   12,00 14,00   25,80   48,00 52,00
4,00 6,00   15,00   24,00 26,00   50,00 54,00
6,35   16,00   28,00   55,00
8,00   13,00 15,00   30,00   52,00 58,00
4,10 10,00   15,80   25,00 27,00   53,00 57,00
4,50 9,10   16,00   28,00   55,00 59,00
5,00 7,00   16,20   28,80   57,00 61,00
7,25   13,50 19,00   26,00 29,00   60,00 64,00
8,00   14,00 16,00   30,00   65,00
9,00   18,00   27,00 30,00   63,00 67,00
10,00   19,00   28,00 31,00   64,00 68,00
6,00 8,00   15,00 17,00   32,00   65,00 69,00
10,00   18,00   30,00 33,00   66,00 70,00
12,00   20,00   34,00   70,00 74,00
13,00   16,00 18,00   36,00   75,00
7,00 9,00   19,00   32,00 35,00   73,00 77,00
9,60   20,00   38,00   75,00 80,00
10,40   17,00 19,00   34,00 37,00   80,00 85,00
7,75 9,75   20,00   38,00   85,00 90,00

Descriptions:

  • ID - inner diameter
  • OD - outer diameter

 

Tolerances

Outer
diameter
[mm]		 Outer diameter
tolerance		 Wall thickness
tolerance		 Length
tolerance		 Roundness Deflection
6-15 +/- 2,0 % +/- 10% 10% 1,50% 2,5 mm
15 -20 +/- 1,5 % +/- 10% 15% 1,50% 2,5 mm
20 -25 +/- 1,5 % +/- 10% 15% 1,50% 3,0 mm
25-40 +/- 1,5 % +/- 15% 15% 1,50% 3,0 mm
40-60 +/- 1,5 % +/- 15% 15% 1,50% 3,0 mm
60 -80 +/- 1,5 % +/- 15% 15% 1,50% 3,0 mm

 

Colored quartz tubes

With the addition of trace elements may be obtained quartz of a different color. 

Available colors: red, dark red, pink, blue, black.

Red quartz (as well as pink and dark red) transmits infrared and blocking ultraviolet and partly visible radiation.

Application: heaters to the infrared, sterilization devices, microwaves, cookers and electric furnaces, dryers to the infrared.

Properties and chemical composition of colored quartz as well as other types of quartz glass, are discussed in detail in chapter Our offer/Technical glass/Types of materials/Quartz glass.  Below presents the most important of them.

Properties of different types of glasses are discussed here.

Typical dimensions and tolerances

Outer diameter
[mm]		 Wall thickness
[mm]		 Siding
[%]		 Roundness
[%]		 Deflection for 1220
[mm]
2 - 5 ±0,1 0,3 - 0,7 ±0,1 10 1,5 2,5
5 - 8 ±0,2 0,6 - 1,0 ±0,1 10 1,5 2,5
9 - 12 ±0,2 0,8 - 1,2 ±0,1 12 1,5 2,5
13 - 20 ±0,3 1,0 - 1,5 ±0,12 12 1,5 2,5
21 - 25 ±0,4 1,2 - 1,8 ±0,15 12 1,5 2,5
 
 

Physical properties

 
Density (20 °C) 2 200 kg/m3
Thermal Expansion Coefficient (25-300 °C)
 0,50 * 10-6
Softening Point 1 710 °C
Annealing Point  1 230 °C
Strain Point  1 1140 °C
Young's Modulus 71 GPa
 
 
Chemical composition ppm (ppm by weight, analysis via direct spectrometer reading)
 
Al B Ca Cr Cu Fe K Li Mg Na
20 0,1 1,2 0,05 0,05 1,0 2,0 1,0 0,9 2,0
 
 

Transmittance of colored glass in UV range.

Note: the chart for glass thickness = 1 mm.

While every attempt has been made to verify the source of the information, no responsibility is accepted for accuracy of data.

Downloadables

Ozone free quartz tubes - additional information

Chemical composition (ppm by weight, analysis via direct spectrometer reading)

Al Fe K Na Li Ca Mg Cu Mn Pb B Cr OH
25 1.5 2.5 2.5 0.6 2.3 0.5 0.1 0.5 0.01 0.2 0.1 <10

 

Dimensional tolerance

Range of OD WT Siding Out of Round Bow/1220mm
5.0 mm ± 0.08 1.0 ± 0.06 10% 1.5 % 2.5 %
12.0 mm ± 0.10 1.0 ± 0.10 10% 1.5 % 2.5 %
15.0 mm ± 0.12 1.0 ± 0.12 15% 1.5 % 2.5 %
17.0 mm ± 0.15 1.0 ± 0.15 15% 1.5 % 2.5 %
18.5 mm ± 0.15 1.0 ± 0.15 15% 1.5 % 2.5 %
19.0 mm ± 0.20 1.0 ± 0.15 15% 1.5 % 2.5 %
25.0 mm ± 0.30 1.0 ± 0.20 15% 1.5 % 2.5 %

 

OD - outer diameter
WT - wall thickness

 

Physical properties

Property Unit Value
Density (at 20 °C) kg/m3 *103 2.2
Ceofficient of expansion (in range 25-300 °C) 1/°C *10-6 0.56
Softening point °C 1630
Annealing point °C 1180
Strain point °C 1070
Youngs modulus Pa * 105 7.3

 

Spectral transmission at 1.0 mm thickness

Wavelength [nm] 185 <220 230-280 550 590 780
Transmittance % 0 0 ≥85 ≥90 ≥92 ≥92
 
 
UV stop quartz tubes - additional information
 
 
Chemical composition (ppm by weight, analysis via direct spectrometer reading)
 
Cr Ge Fe Mg Ti Ca Al Na Li K OH
<0.5 <0.4 1.5 0.5 2.5 2.3 2.5 2.5 0.36 2.5 1-50
 
 

Dimensional tolerance

 
Range of OD OD WT Siding Out of Round Bow/1220mm
<= 6 mm ± 2,0 % ± 10 % 12% 2.0 % 2.5 mm
6 - 15 mm ± 1,25 % ± 8 % 10% 1.5 % 2.5 mm
15 - 20 mm ± 1,25 % ± 10 % 15% 1.5 % 2.5 mm
20 - 25 mm ± 1,25 % ± 10 % 15% 1.5 % 3.0 mm
25 - 30 mm ± 1,35 % ± 12 % 15% 1.5 % 3.0 mm

 

OD - outer diameter
WT - wall thickness

 

Physical properties

 
Property Unit Value
Density (at 20 °C) kg/m3 *103 2.2
Ceofficient of expansion (in range 25-300 °C) 1/°C *10-6 0.58
Softening point °C 1620
Annealing point °C 1160
Strain point °C 1060
Youngs modulus Pa * 105 7.3
 
 

Spectral transmission at 1.0 mm thickness

 
Wavelength [nm] <220 230-280 290-330 315 350 380 590 780
Transmittance % 0 <19 0 15 88 92 93 93

 

UV stop quartz tubes - additional information

Cr Ge Fe Mg Ti Ca Al Na Li K OH
<0.5 <0.4 1.5 0.5 2.5 2.3 2.5 2.5 0.36 2.5 1-50

 

Dimensional tolerance

Range of OD OD WT Siding Out of Round Bow/1220mm
<= 6 mm ± 2,0 % ± 10 % 12% 2.0 % 2.5 mm
6 - 15 mm ± 1,25 % ± 8 % 10% 1.5 % 2.5 mm
15 - 20 mm ± 1,25 % ± 10 % 15% 1.5 % 2.5 mm
20 - 25 mm ± 1,25 % ± 10 % 15% 1.5 % 3.0 mm
25 - 30 mm ± 1,35 % ± 12 % 15% 1.5 % 3.0 mm

 

OD - outer diameter
WT - wall thickness

 

Physical properties

Property Unit Value
Density (at 20 °C) kg/m3 *103 2.2
Ceofficient of expansion (in range 25-300 °C) 1/°C *10-6 0.58
Softening point °C 1620
Annealing point °C 1160
Strain point °C 1060
Youngs modulus Pa * 105 7.3

 

Spectral transmission at 1.0 mm thickness

Wavelength [nm] <220 230-280 290-330 315 350 380 590 780
Transmittance % 0 <19 0 15 88 92 93 93

 

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