DURAN Tubing, rods and capillaries made of borosilicate glass.
SCHOTT is a leading international technology group in the areas of specialty glass and glass-ceramics. With more than 0 years of outstanding development, materials and technology expertise we offer a broad portfolio of high-quality products and intelligent solutions that contribute to our customers success. With a production capacity of more than 0,000 tons and production sites in Europe, South America and Asia, SCHOTT Tubing is one of the world s leading manufacturers of glass tubes, rods and profiles. Approximately 60 glass types are produced in large external diameters and a variety of lengths based on site-overlapping strategies in development, production and quality assurance. SCHOTT Tubing provides customized products and services for international growth markets such as pharmaceuticals and electronics as well as industrial and environmental engineering. 5 0 Content 6 7 8 8 7 Trademark Table of contents 5 Inventor Otto Schott 6 7 Glass properties 8 Range of dimensions Quality management 0 Range of applications Service/packaging Logistics services 5 7 Processing notes 8 5 Tubing 6 Rods 7 Capillaries 8 Related products Other glass types for technical applications Annex
5 made by SCHOTT The invention from Otto Schott Versatile, highly resistant, easily processed its many features make DURAN glass tubing the all-round talent among all technical glasses. Invented in 87 by Otto Schott, this. expansion glass to this day in many ways positions SCHOTT as the leader in the borosilicate glass industry, boasting uniquely varied dimensions, very tight geometric tolerances and high optical quality. Innovators at heart. Enablers at work. Otto Schott The inventor: Scientist and company founder 87 8 50 5 The invention: Borosilicate glass., resistant to chemicals, heat and thermal shock, was invented in 87 by Otto Schott. Patented: Registered for patent in 8 under the trade name DURAN. Industry standard: DURAN borosilicate glass tubing has been the standard material in the production of laboratory glass items since the 50s. A first: Glass tubing with a length of 0 meters! SCHOTT in Mitterteich, Germany, was the first to produce DURAN tubing in a length of 0 meters, making it the longest industrially produced glass tube. A first: Glass tubing with 60 mm outside diameter! SCHOTT in Mitterteich has set a world record: It manufactured DURAN tubing with an outside diameter of 60 mm, the largest-ever industrially produced glass tubing.
6 7 Properties High chemical resistance Outstanding transmission properties High thermal capacity and resistance to thermal shock Good electrical properties Durability in corrosive environments thanks to high chemical resistance of the material Ideal base material for transparent encapsulation, thanks to consistently stable transmission from UV-A into IR range Ideal for applications in contact with fire or high temperatures due to high working temperatures and thermal shock Excellent for high-voltage applications, thanks to its good electrical insulating characteristics with high dielectric strength Hydrolytic resistance Transmission Temperature resistance and thermal expansion Electrical properties Hydrolytic resistance (DIN ISO 7) Class HGB Acid resistance (DIN 6) Class S Alkali resistance (DIN ISO 65) Class A DURAN borosilicate glass. is very resistant to water, neutral and acid solutions, strong acids and their compounds, as well as against chlorine, bromine, iodine and organic substances. Hydroflouric acid, hot phosphoric acid, and alkaline solutions attack the glass surface depending on concentration and temperature, thus applications must be individually tested. Transmission (%) 00 0 80 70 60 50 0 0 0 0 0 00 00 500 600 800 000 00 000 000 5000 6000 Coefficient of mean linear thermal expansion a ( C; 00 C) as per DIN ISO 7. 0 6 K Transformation temperature T g 55 C Glass temperature at viscosity h in dpa s: 0 (annealing point) 0 7,6 (softening point) 0 (working point) 560 C 85 C 60 C Thermal conductivity l w at 0 C. W m K Temperature for specific electrical resistance of 0 8 W cm (DIN 5 6) t k 00 50 C Log of the electric volume resistivity (W cm) at 50 C at 0 C Dielectric properties ( MHz, 5 C) dielectric constant e dielectric loss factor tan d 8 6.5.6 7 0 Wall Thickness mm mm 8 mm Wavelenght (nm) Index of refraction (l = 587.6 nm) n d.7 Other characteristics Density r at 5 C. g cm Poisson number m 0. Elasticity modulus E (Young's modulus) 6 0 N mm Stress-optical constant: (DIN 5 ) K.0 0 6 mm N
8 Versatile in size and length Range of dimensions Quality management DURAN tubing DURAN rods DURAN capillaries Ultra-modern manufacturing methods forge SCHOTT quality, 00 % measured, controlled, documented, and traceable all the way back to its origin. Certified quality DURAN meets all significant standards for technical glass such as ISO 85:8 and ASTM E8 Type I. Good Manufacturing Practice (GMP) is a guideline for production processes and production environment (ISO 578) and is an extension of the familiar standard ISO 00. SCHOTT in Mitterteich, Germany, is the world s first glass tubing manufacturer to be certified under the applicable European standard ISO 578. Germany: Site Mitterteich and Mainz Dimension range [mm] Outside diameter (OD).00 to 60 Wall thickness (WT) 0.5 to.00 Length (L) 600 to 0,000 Dimension range [mm] Diameter (D) >.00 to.00 Length (L),0 to,000 Dimension range [mm] Outside diameter (OD).00 to.00 Inside diameter (ID) 0.0 to.00 Length (L),000 to,000 Proven quality from SCHOTT In addition to measuring done within the production lines, random samples are regularly taken during the production process. The in-house laboratory tests these samples chemically, physically and visually in order to verify and expand upon the automatic testing. Once the finished tubing is packaged and ready for shipment, all measuring results and packaging information is archived for any later access that may be required. These dimensions cannot be selected in any combination of OD, WT, ID and L. Further dimensions available upon request. Requirement: successful technical feasibility test Shorter lengths are available with post-processing upon request.
0 Wide range of applications Do you know some of the many ways where DURAN tubing is used? Here are a few examples: Laboratory Process plant engineering KROHNE Laboratory devices: DURAN tubing for high thermal-shock and corrosion resistance Art & design, safety and more Chemical equipment: geometrically precise DURAN tubing for commercial plants Sight glasses: DURAN tubing for consistently stable clarity Product presentation: DURAN tubing with high transparency and resistance to scratches Giftware: DURAN tubing as easily processed primary material Explosion proof lighting: DURAN tubing for durability in corrosive environments Photobioreactors: DURAN tubing with high transmission for ideal algae growth Ozone generators: DURAN tubing as insulator Interior design: DURAN tubing for modern and innovative design solutions Sprinkler fuses: DURAN tubing with consistently reliable thermal expansion 60-degree camera: enveloping DURAN tubing as protection from scratches, environmental effects and reflections Heat exchangers: DURAN tubing for high corrosion resistance Ventilation systems: DURAN tubing for optimum effect and long life
The worldwide sales offices of SCHOTT Technical Tubing: International and close to customers Services Europe Know-how and consulting 5 6 DENMARK Lyngby England Stafford NETHERLANDS Tiel GERMANY Mitterteich Production site FRANCE Colombes SWITZERLAND St. Gallen 7 8 0 AUSTRIA Vienna SPAIN Barcelona ITALY Genova CROATIA Zagreb POLAND Warsaw TURKEY Istanbul RUSSIA Moscow Glass specialists from SCHOTT Technical Tubing provide support for all issues of production, processing and application of glass tubing, rods, and capillaries. Our qualified experts have in-depth knowledge of glass and its properties and processes. We provide custom-tailored advice and services, from material selection to support for technical feasibility studies, up to product development. 5 7 6 0 8 Technical consulting Analysis of glass defects Benefit from our expertise in materials, product features and processing. Our experts improve the quality and efficiency of your production throughout the entire process chain. Innovation Lectures We are happy to partner up with you to develop optimum solutions for your product idea. We will share our comprehensive expertise with you. Scientific Services Nonconformity analysis during glass processing Application-specific technical advice Know-how transfer via training and lectures 5 6 5 7 6 7 8 8 North America 5 USA Elmsford, NY MEXICO Mexico City Near East ISRAEL Tel Aviv UNITED ARAB. EMIRATES Dubai Asia South America 6 7 8 COLUMBIA Bogotá BRASIL Itupeva ARGENTINA Buenos Aires 5 6 7 8 INDIA Mumbai THAILAND Bangkok SINGAPORE Singapore JAPAN Tokyo KOREA Seoul CHINA Shanghai TAIWAN Taipei AUSTRALIA Frenchs Forest
5 Logistics services Processing notes Standard packaging solutions Carton Individual packaging solutions More custom packaging is available as per individual needs and customer request. Tight packaging plus shrunk-on foil = effective transport protection Up to exterior diameter of 50 mm Standard length,500 mm Can be custom made Strength DENSOPACK Glass is a brittle material. Theoretically calculated strength is meaningless in the practical application of glass. The strength of glass is not determined by material property but rather by surface property. The surface of glass always contains microscopic defects. Packaging, transport and especially processing determine strength, because this is when microscopic to macroscopic damage occurs to the surface. The strength of glass components is thus researched experimentally and not theoretically. The following theoretical considerations can help in laying out applications or defining operating conditions, yet do not replace practical strength tests when necessary. These must be performed on the final product and are thus the responsibility of the end-product manufacturer. Large carton box Wooden box Bulk pallet Round-the-clock ordering All dimensions indicated in this brochure can be ordered online: www.schott.com/tubing/ecom DURAN is easily ordered /7 and online. Stock lists, price transparency, and anticipated delivery date are only a few of the practical functions. Comprehensive, log-in-protected functions facilitate ordering: www.schott.com/tubing/ecom For further information and individual log-in details call + (0) 6/80-00 or contact customerservice.tubing@schott.com. Experimental tests of the strength of glass indicate the distribution of failure frequency under certain loads. Statistical assessment of this distribution allows for calculating the probability of fracture. The probability of fracture, in turn, allows for dimensioning of the glass component or assessment of its use for a specific application, if required.
6 7 Processing notes Processing notes Compressive strength of DURAN borosilicate glass. tubing The following formula applies to stress-free tubing and hollow cylindrical bodies with rounded profile, consistent wall thickness and open ends, free of thermal loads under positive interior and negative exterior pressure. Calculating resistance to pressure (p) p = WT 0 bar OD WT Calculating wall thickness (WT) WT = OD p 0 bar + p The table below gives two maximum temperature differences each for some dimensions. The publication for glass tubing distinguishes between two types of temperature change.. Temperature change to the tubing occurs only form the outside, without direct influence on the interior atmosphere.. Temperature change occurs simultaneously from the outside and on the inside of the tubing. This case is less critical and represents the higher value of the table. Tubing OD 50.5 / WT 0 mm: 00 / 0 C Rod OD.0 mm: 75 C OD = outside diameter in mm WT = wall thickness in mm p = pressure in bar The formula stems from the AD 00 specifications N, Issue 00-0: Pressure vessels of glass with Annex, Issue 00-0: Assessment of errors in pressure vessel walls of glass and B, Issue 00-0: Cylinder and spherical shells under excess interior pressure, whereby approved strain under DIN EN 55: Pressure equipment made from borosilicate glass. General rules for design, manufacture and testing of 7N/mm were established. Under DIN EN 55: Pressure equipment of borosilicate glass. General rules for design, manufacture and testing, DURAN is an approved material and can be used in the manufacture of pressure equipment. Stress-free cooling OD.0 / WT 0 mm: 0 / C OD.0 / WT 8.00 mm: 85 / 0 C The thermal-shock resistance of tubing, capillaries and rods depends on wall thickness, shape and size of the quenched surface, surface condition, existing stresses and end finish. It is recommended not to exceed a temperature difference of C. To remove temporary stresses arising from processing, glass is heated to a maximum of 550 C and kept at this temperature for no more than 0 minutes; for lower thickness a fraction of this time is normally needed. For subsequent cooling the following table contains standard values for recommended cooling rate: Thermal-shock resistance The thermal-shock resistance of glass tubing can be estimated with, for example, a GIT publication (data and process sheets, Process sheet GIT 6 [6] booklet [Dec.]). Thermal-shock resistance refers to the mechanical resistance of glass tubing against cracking or breaking under extreme thermal shock. The values in this publication are based on theoretical research and practical experience and should show temperature differences which the glass bodies can withstand in practice. Breakage is thereby not expected until temperature differences are. to times higher. Wall thickness Temperature range in mm 550 to 80 C 80 to 00 C 00 to C ~ C / min ~ C / min to ~ 80 C / min 6 ~ C / min ~ 6 C / min to ~ C / min ~ 0.8 C / min ~.6 C / min to ~ C / min If an item needs to be cooled several times, the sum of all relaxation times at 550 C should not exceed two hours.
8 Tubing Outer diameter Wall thickness Tube weight Röhren Length approx.,500 mm Pallet load mm mm g Number of tubes Number of cartons ±0. 0.7 ±0.0 7 6.0 7.0 ±0. 0.8 ±0.0 7 555 6 50.0 5 ±0. 0.8 ±0.0.0 5 50.0 6 ±0..0.5 ±0.0 5 7 5.0 6 6 68.0 50.0 7 ±0..0.5 ±0.0 6 87 0 7.0 5 6 50.0 50.0 8 ±0..0.5 ±0.0 7 0 7.0 5 6 50.0 ±0..0.5 ±0.0 8 8.0 5 6 50.0 50.0 0 ±0..0.5. ±0.0 ±0. 5 80 5 0 56.0.0 5 5 5 0 50.0 50.0 ±0.6.0.5. ±0.0 ±0. 05 50 86 7.0.0 8.5 5 5 5 0 8.5 ±0.6.0.5. ±0.0 ±0. 6 65 6 0 67.0.5 5 5 5 7.5 ±0.6.0.5. ±0.0 ±0. 6 8 50 55 6.0 5 5 5 50.0 0 ±0.6.0.5. ±0.0 ±0. 7 7 7 0 6 0.0 8. 5 5 5 0 6.0 Outside diameter of - 65 mm 5 ±0.6 6 ±0.6..8.5..8.5 ±0. ±0. 7 50 8 87 68 86 56 5 8 5.0 8.. 8.8 5 5 5 0.0 6.0 5 58.5 6.0
Tubing Tubing Outer diameter Wall thickness Tube weight Length approx.,500 mm Pallet load Outer diameter Wall thickness Tube weight Length approx.,500 mm Pallet load mm mm g Number of tubes Number of cartons mm mm g Number of tubes Number of cartons 7 ±0.6..8.5 ±0. 87 8 75 5.0.5 5 5 0.0 7.5 6 ±0...0.8 ±0.0 ±0. 50 7 76 5 5.6 8.0.7 5.0 60.0 0.5 8 ±0.6..8.5 ±0. 06 07 66.0 8. 5 0.0 5 6.5 8 ±0...0.8 ±0.0 ±0. 58 756 0 0.8. 6.0 00.0.0 ±0.6 ±0. ±0. ±0. 6 ±0. 8 ±0. 0 ±0.0 ±0.0..8.5..8.5..8.5..8.5..0.8..0.8..0.8..0.8 ±0. ±0. ±0. ±0. ±0.0 ±0. ±0.0 ±0. ±0.0 ±0. ±0.0 ±0. 5 7 60 6 8 5 87 565 6 50 68 56 7 588 800 50 60 85 6 6 55 6 0 0 6 5 5 0 5 5 6 6 6 5 6 6.0.7 5.6.0...0.5 5. 0. 0.5.0 0..6.6.8.0.8 5...8. 0..8 5 5 0.0 7.5 56.0 5.0.0 8 0.5 5.0 60.5 67.5 0.0 8.5.0 76.0.0 8 58.0 0.0.0 8.0 6.0.5 8.0 ±0.0.0 ±0.0 65 5 6..0 0 ±0.50 ±0.50 ±0.50.6...6...6.. ±0. ±0.8 ±0.0 ±0. ±0.8 ±0. ±0.8 65 7 88 67 5 0 7 007 7 6 6 6 6 6 6 0..6. 6.5 0. 5..7. 6.0. 8.0.0.0 6.0 8.0 06.0 0.5 8.0.0.0 5 ±0.0 0 8. 8 5. 6 8 50 ±0.65 5 ±0.65.6...6...8.5.5.0.8.5.5 ±0. ±0.8 ±0. ±0.8 ±0. ±0. ±0. ±0.0 ±0.5 ±0. ±0. ±0. 76 056 780 0 506 7 70 6 6 876 00 78 6 6 6 6 6 6 6..5.0. 7.6.0 0..5..0. 8.5.7 6.0 8 8.0.5 5 8.0.0 8.0 00.0.5 5.0 87. 70.0.0.0 ±0.0..0.8 ±0.0 ±0. 7 67 8 5 6 6. 0.8.8.0 78.0 58.0 5 ±0.65.8.5.5 ±0. ±0. ±0. 87 856 8.. 6.7 78.0.0.0 55 ±0.65 ±0.0 66 0.5 67.5
Tubing Tubing Outer diameter Wall thickness Tube weight Length approx.,500 mm Pallet load Outer diameter Wall thickness Tube weight Length approx.,500 mm Pallet load mm mm g Number of tubes Number of cartons mm mm g Number of tubes Number of cartons 56 ±0.65 58 ±0.65 60 ±0.75 65 ±0.75.8.5.5.8.5.5....0... ±0. ±0. ±0. ±0. ±0. ±0. ±0.6 ±0.8 ±0.5 ±0.0 ±0.5 ±0.6 ±0.8 ±0.5 ±0.0 05 05 0 06 57 00 6 0 6 888 87 8 5 077 68 5 8..6 7.5.6. 8.0.0 7..8.5 5.6..7 8. 0.7.6 8 8.0 5.0 0.0.0 6.0 60.0 0.0.0.0 0.5 56.0 50..0 0.5 7.5.0 0 ±.0 5 ±.0 00 ±.0 05 ±.0.5.5.0.5.5.5.0.5.0.0 ±0.6 ±0. ±0. ±0.5 ±0.65 ±0.6 ±0. ±0. ±0.6 ±0.8 ±0. ±0. ±0.5 ±0.65 ±0.8 ±0.0 8 80 6 6 0 7 657 6 76 560 056 57 8 6 88 8 60 5 5..7 7. 8..0.7. 8. 0.. 0.7.5 5.8.6 5.8 5 5 8.0 8.0 7.5.0 68.0 78.0 6.0 08. 8. 80.0 6.0 0.6 5. 8.6 70 ±0.85 75 ±0.85 80 ±.0 85 ±.0....0....5.5.0.5.5 ±0.6 ±0.8 ±0.5 ±0.0 ±0.5 ±0.6 ±0.8 ±0.5 ±0.0 ±0.6 ±0. ±0. ±0.65 ±0.6 ±0. ±0. 567 5 0 6 5 766 68 676 0 8 6 7 66 6 8 8.5.0.6.6 8.5..5.7.5.7 8.. 5.8 6.8 8.7.0 6.8 5 5 87.5 06.0 76.0 67.5 85..5.0 50.0.0 6.0 6.0 6.0 56.0 0.0 6.0 0 ±.0 5 ±.0 ±.0 5 ±.0 0 ±.50.0.0.0.0.0.0.0 ±0.5 ±0.5 ±0.5 ±0.5 ±0.5 ±0.5 ±0.80 ±0.5 ±0.80 ±0.5 ±0.5 ±0.80 7 5 5 7 57 5 5 777 7 0 687 6 0 8 08 0 6 0 0 65 00 6 565 0 8 0. 6.5.7..6 5..7. 6.6.0.6. 6.0. 8.. 5 5 5 5 5 5 5 5 5 5. 8.0 7. 6. 8.5. 8.5.0 8.0 8.5.0 6.5 7.5.5 ±.50 ±0.5 6 87.7 8.8 5 5 5.5 8.0 0 ±.60.0 ±0.5 ±0.5 7 7 00 77 7...6 5 5 55.7.0.0
5 Tubing Tubing Outer diameter Wall thickness Tube weight Length approx.,500 mm Pallet load Outer diameter Wall thickness Tube weight Length approx.,500 mm Pallet load mm mm g Number of tubes Number of cartons mm mm g Number of tubes Number of cartons 5 ±.60 ±0.5 7.7 5.5 50 ±.70.0.0 ±0.5 ±0.5 ±0.80 6 7 65 0 5. 5..0 6.7.6 8. 5.0. 00 ±.70 5 ±.80.0.0 ±.0 ±.0 ±.0 ±.0 5 5 7 508 65 8 6 5.5.5 7.5.6 8..5.5 7.5. 60. 55 ±.75 ±0.5 7 877 5.8 8.6 60 ±.75 ±0.5 8 0 6..5 5.6 70.0 5 ±.00.0 ±.0 ±.0 87 085..0.6 0 ±.00 ±0.80 8 8 8. 7. 65 ±.75 70 ±.75.0 ±0.5 ±0.5 ±0.0 8 0 67 8 665 8 5 6.8. 7..0 5..6 78. 7.6 88.0 0.0 65 ±.50 ±.0 6 6. 05. 00 ±0 6.0 ±.50 8.8. 5 ±0 ±.50 7 0.0.0 80 ±.5.0 ±0.5 ±0.0 0 7 6 65..7 6. 8.0.0 ±0.5 ±.50 0 60.0 6.0 0 ±0 6.0 ±.00 6 7 6.7 06.8 0 ±.05 0 ±.0.0 ±0.5 ±0.80 ±.00 76 55 0 0 8 055.7.5 0.. 8..0 70.0.0 8.0 6.0 0 ±0 ±.00 86.8 7. 50 ±0 8.0 ±.00 ±.00 57 7 0.6 7. 0. 8. 60 ±5.50 8.5 ±. 0 0 0. 6. 5 ±.0 5 ±.60.0.0 ±0.80 ±.00 ±0.80 ±.0 0 5 7 6 08 8.0 5..5 6.0..0 7.7 75.5.0 8.6 65 ±6.00 ±.00 67.7.8 Standard length: approx.,500 mm 0 ±.80.0 ±.0 86.8 6. 50 ±.0.0 ±0.0 ±.0 867 7 866 78. 7..8 6. 6. 5. 70 ±.0.0 ±0.0 ±.0 7 7 67...7 5. 7.7.
6 7 Rod Capillaries Diameter Rod weight Length approx.,500 mm Pallet load Outer diameter Inside diameter Tube weight Length approx.,500 mm mm g Number of rods approx. kg Number of boxes approx. kg mm mm g Number of tubes approx. kg ±0. 5.5 550.0 ±0.6 0.8 0 50 ±0. 8.5 550.0 5 ±0. 66 8.0 58.0 5 ±0.6 0. 0.6 0.8. 65 65 6 6 5 5 56 6 6 ±0. 5 0. 580.8 7 ±0. 8.6 55. 8 ±0.8 68 80. 58.6 6 ±0.6 0. 0.8..7..7 ±0.0 ±0.0 ±0.0 87 8 75 0 08 0 5 ±0.8 6. 58.6 0 ±0.8 6 5.8 5. ±0.8 78. 580.8 ±0.6 55. 55.6 6 ±0.6 67. 6 8. 8 ±0.6 85 7 ±0.6 050 6 6.8 7 5.6 7 ±0.8 8 ±0.8 0.8..7..7.0 0.8..7..7.0 ±0.0 ±0.0 ±0.0 ±0.0 ±0.0 ±0.0 ±0.0 ±0.0 7 5 6 0 05 66 6 60 55 7 80 8 86 5 60 6 6 65 67 6 ±0.0 7 5. 6 550.8 ±0.0 5 8. 7. 6 ±0.50 775 6.0 7.0 ±0.8 0.8..7..7.0 ±0.0 ±0.0 ±0.0 ±0.0 5 0 8 7 8 50 5 5 8 05 8.5 7.5 0 6 6. 6 5. Standard length: approx.,500 mm Pallet loading capillaries: Number of cartons: 55 weight: approx. 550.0 kg Standard length: approx.,500 mm
8 Related products Other glass types for technical applications CONTURAX and CONTURAX Pro DURAN tubing and rods with cross-sections that have not been rounded but rather contoured are distributed under the brand names CONTURAX and CONTURAX Pro. The chemical and physical glass properties of these products are identical to those of DURAN. With CONTURAX and CONTURAX Pro, SCHOTT offers a comprehensive variety of shapes. We will be glad to look into the feasibility of your particular product idea and advise you to that effect. DURAN is a very versatile glass. In addition to its chemical resistance, transparency, high thermal endurance and high electric and dielectric insulating features, it can also be fused with metals, for example, by using intermediate glasses. Yet these basic features are not always sufficient for specific demands. For such cases, the SCHOTT portfolio of technical tubing includes specialty glasses which surpass and expand upon certain DURAN features. The glass tree below illustrates these specialty glass types, arranged by their distinguishing features. You can find out more about CONTURAX and CONTURAX Pro from your SCHOTT contact person. DURATAN The mechanical strength of DURAN tubing can be noticeably improved by a hardening process. This thermally prestressed (hardened) DURAN is distributed under the brand name DURATAN. The typical chemical and physical features of DURAN are entirely maintained. We will gladly provide information on standards and assess the ability to harden the dimensions you request. Find out more about DURATAN from your SCHOTT contact person. DURAN with coating DURAN tubing can also be coated to gain other special features. SCHOTT has developed a special anti-reflective and anti-fingerprint coating for DURAN tubing. This oleophobic coating prevents smudging from fingerprints, while the anti-reflective properties maximize transparency, making the glass tubing almost invisible. Find out more about DURAN from your SCHOTT contact person. higher infrared transparency Glass 87 better light protection/ absorption Glass 87N Glass 868 DUROBAX amber ILLAX better alkali resistance Glass 86 Glass 86 higher ultra violett transparency Glass 87B Glass 87 Glass 805 higher shock resistance Glass 88 Glass 8 Glass 80 Light Transparency Chemical Resistance Temperature Resistance/ Shock Resistance DURAN higher temperature resistance Glass 85 Glass 85 Glass 88 Glass 8 Glass 87 Electrically Insulating Matched Sealing directly with Kovar Glass 850 Glass 85 Glass 8800R Glass 80 Glass 8 Glass 88 higher insulating Glass 850 Glass 85 Glass 865 Glass 85 directly with Tungsten (W) Glass 887 Glass 87B Quartz with softer materials AR-GLAS with ceramics Glass 86 directly with Molybdenum (Mo) Glass 85 Glass 85 BOROFLOAT For applications which require the flat-glass features of DURAN, SCHOTT s BOROFLOAT provides the first floated borosilicate flat glass in the world. Its planarity and one-of-a-kind quality, as well as outstanding thermal, optical, chemical and mechanical characteristics, are impressive. neutral Glass DUROBAX clear Find out more about BOROFLOAT at www.schott.com/borofloat. Are you interested in the technical data of a specialty glass in our portfolio? Your contact person will be glad to guide you.
0 Appendix DURAN tested in the harshest applications Photo credits Companies owning the copyright of the images, and/or photographers, are listed. Alexander Raths/Fotolia.com: Page 0 top Bertold Werkmann/Fotolia.com: Page 0 lower center Juk86/Shutterstock.com: Page lower center kasto/fotolia.com: Page lower right KROHNE: Page upper right Oana Szekely: Pages -5 top, 5 top QVF : Page upper left kasto/fotolia.com: Page lower left Swift Horsman Ltd, Ware, UK: Page 0 lower left Triplan: Page lower right videostream60: Page 0 lower right SCHOTT AG owns the copyright of the other images. Registered product names SCHOTT, DURATAN, DENSOPACK, BOROFLOAT, CONTURAX and CONTURAX Pro are registered trademarks of SCHOTT. DURAN is a registered trademark of the Duran Group GmbH. Note Detailed information on acceptable errors, definition of errors, testing methods and testing units are available upon request. Tighter tolerances are also available upon request. Basis for claims are the respectively applicable Technical Terms of Supply or any written contractual provisions. We reserve the right to technical modifications.
Tubing SCHOTT North America, Inc. 555 Taxter Road Elmsford, NY 05 USA Phone + ()8-0 Fax + ()8- info.tubing@us.schott.com www.us.schott.com/tubing Aus0.0.6AH