Example: barber

Makrolon 2458 - t Link

General purpose grades / Low viscosity / High productivityGlobal grade; MVR 19 cm /10 min; General purpose; Low viscosity; Easy release; Food contactquality; Good hydrolysis resistance; Injection molding; Available in transparent, translucent and opaquecolors; Suitable for medical devicesISO ShortnameISO 7391-PC,MR,49-18-9 PropertyTest ConditionUnitStandardValue-Rheological propertiesCMelt volume-flow rate300 C; kgcm /(10 min)ISO 113319 CMolding shrinkage, parallel60x60x2; 280 C / MT 80 C; 500bar%ISO shrinkage, normal60x60x2; 280 C / MT 80 C; 500bar%ISO shrinkage, parallel/normalValue range based on generalpractical experience%acc. ISO - mass-flow rate300 C; kgg/(10 min)ISO 113320 Mechanical properties (23 C/50 % r. h.)CTensile modulus1 mm/minMPaISO 527-1,-22400 CYield stress50 mm/minMPaISO 527-1,-265 CYield strain50 mm/min%ISO 527-1, strain at break50 mm/min%ISO 527-1,-2> 50 Stress at break50 mm/minMPaISO 527-1,-265 Strain at break50 mm/min%acc.

Property Test Condition Unit Standard Value-Halving interval (Tensile impact strength) 1.5 mm °C IEC 60216-1 7.5 Temperature index (Electric …

Tags:

  Makrolon, Makrolon 2458, 2458

Information

Domain:

Source:

Link to this page:

Please notify us if you found a problem with this document:

Other abuse

Transcription of Makrolon 2458 - t Link

1 General purpose grades / Low viscosity / High productivityGlobal grade; MVR 19 cm /10 min; General purpose; Low viscosity; Easy release; Food contactquality; Good hydrolysis resistance; Injection molding; Available in transparent, translucent and opaquecolors; Suitable for medical devicesISO ShortnameISO 7391-PC,MR,49-18-9 PropertyTest ConditionUnitStandardValue-Rheological propertiesCMelt volume-flow rate300 C; kgcm /(10 min)ISO 113319 CMolding shrinkage, parallel60x60x2; 280 C / MT 80 C; 500bar%ISO shrinkage, normal60x60x2; 280 C / MT 80 C; 500bar%ISO shrinkage, parallel/normalValue range based on generalpractical experience%acc. ISO - mass-flow rate300 C; kgg/(10 min)ISO 113320 Mechanical properties (23 C/50 % r. h.)CTensile modulus1 mm/minMPaISO 527-1,-22400 CYield stress50 mm/minMPaISO 527-1,-265 CYield strain50 mm/min%ISO 527-1, strain at break50 mm/min%ISO 527-1,-2> 50 Stress at break50 mm/minMPaISO 527-1,-265 Strain at break50 mm/min%acc.

2 ISO 527-1,-2115 CTensile creep modulus1 hMPaISO 899-12200 CTensile creep modulus1000 hMPaISO 899-11900 Flexural modulus2 mm/minMPaISO 1782350 Flexural strength2 mm/minMPaISO 17898 Flexural strain at flexural strength2 mm/min%ISO stress at % strain2 mm/minMPaISO 17873 CCharpy impact strength23 CkJ/m ISO 179-1eUNCC harpy impact strength-30 CkJ/m ISO 179-1eUNCharpy notched impact strength23 C; 3 mmkJ/m acc. ISO 179-1eA60 PCharpy notched impact strength-30 C; 3 mmkJ/m acc. ISO 179-1eA12 CIzod notched impact strength23 C; mmkJ/m acc. ISO 180-A70P(C)Izod notched impact strength-30 C; mmkJ/m acc. ISO 180-A12 CCPuncture maximum force23 CNISO 6603-25200 CPuncture maximum force-30 CNISO 6603-26200 CPuncture energy23 CJISO 6603-255 CPuncture energy-30 CJISO 6603-260 Ball indentation hardnessN/mm ISO 2039-1115 Thermal propertiesCGlass transition temperature10 C/min CISO 11357-1,-2145 CTemperature of deflection under MPa CISO 75-1,-2125 CTemperature of deflection under MPa CISO 75-1,-2138 CVicat softening temperature50 N; 50 C/h CISO 306145 Vicat softening temperature50 N.

3 120 C/h CISO 306146 CCoefficient of linear thermal expansion, parallel23 to 55 C10-4/KISO 11359-1, of linear thermal expansion, transverse23 to 55 C10-4/KISO 11359-1, behavior UL 94 ( mm) [UL recognition] mmClassUL 94V-2 CBurning behavior UL 94 [UL recognition] mmClassUL 94V-2 Burning behavior UL 94 [UL recognition] mmClassUL 94V-2 Burning behavior UL 94 [UL recognition] mmClassUL 94 HBBurning behavior UL 94 [UL recognition] mmClassUL 94 HBBurning behavior UL 94 [UL recognition] mmClassUL 94 HBCO xygen indexMethod A%ISO 4589-227 Thermal conductivity23 CW/(m K)ISO to heat (ball pressure test) CIEC 60695-10-2135 Temperature index (Tensile strength)20000 h; mm CIEC 60216-1130 Halving interval (Tensile strength) mm CIEC index (Tensile impact strength)20000 h; mm CIEC 60216-1120 Makrolon 2458 Page 1 of 4 pagesMakrolon Edition DatasheetPropertyTest ConditionUnitStandardValue-Halving interval (Tensile impact strength) mm CIEC index (Electric strength)20000 h.

4 Mm CIEC 60216-1130 Halving interval (Electric strength) mm CIEC temperature index (Tensile strength) [UL recognition] mm CUL 746B125 Relative temperature index (Tensile impact strength) [UL recognition] mm CUL 746B115 Relative temperature index (Electric strength) [UL recognition] mm CUL 746B125 Glow wire test (GWFI) mm CIEC 60695-2-12850 Glow wire test (GWFI) mm CIEC 60695-2-12850 Glow wire test (GWFI) mm CIEC 60695-2-12850 Glow wire test (GWFI) mm CIEC 60695-2-12850 Application of flame from small burnerMethod K and F; mmClassDIN 53438-1,-3K1, F1 Needle flame testMethod K; mmsIEC 60695-2-25 Needle flame testMethod K; mmsIEC 60695-2-25 Needle flame testMethod K; mmsIEC 60695-2-210 Needle flame testMethod F; mmsIEC 60695-2-260 Needle flame testMethod F; mmsIEC 60695-2-2120 Needle flame testMethod F; mmsIEC 60695-2-2120 Incandescent bar testRatingIEC 60707-BHBH2/< 30 mmBurning rate (US-FMVSS)>= mmmm/minISO 3795passedFlash ignition temperatureProcedure B CASTM D1929470 Self ignition temperatureProcedure B CASTM D1929540 Electrical properties (23 C/50 % r.)

5 H.)CRelative permittivity100 Hz-IEC permittivity1 MHz-IEC factor100 Hz10-4 IEC 602505 CDissipation factor1 MHz10-4 IEC 6025090 CVolume resistivityOhm mIEC 600931E14 CSurface resistivityOhmIEC 600931E16 CElectric strength1 mmkV/mmIEC 60243-133 CComparative tracking index CTIS olution ARatingIEC 60112275 Comparative tracking index CTI MSolution BRatingIEC 60112125 Electrolytic corrosionRatingIEC 60426A1 Other properties (23 C)CWater absorption (Saturation value)Water at 23 C%ISO absorption (Equilibrium value)23 C; 50 % RH%ISO ISO 11831200 Water permeation23 C; 85 % RH; 100 m filmg/(m 24 h)ISO 15106-115 Gas permeationOxygen; 100 m filmcm /(m 24 h*bar)acc. ISO 2556800 Gas permeationOxygen; m (1 mil) filmcm /(m 24 h*bar)acc. ISO 25563150 Gas permeationNitrogen; 100 m filmcm /(m 24 h*bar)acc.

6 ISO 2556160 Gas permeationNitrogen; m (1 mil) filmcm /(m 24 h*bar)acc. ISO 2556630 Gas permeationCarbon dioxide; 100 m filmcm /(m 24 h*bar)acc. ISO 25564800 Gas permeationCarbon dioxide; m (1 mil) filmcm /(m 24 h*bar)acc. ISO 255618900 Bulk densityPelletskg/m ISO 60660 Material specific propertiesCViscosity numbercm /gISO 1628-451 Refractive indexProcedure A-ISO for transparent materials3 mm%ISO 14782< transmittance (clear transparent materials)1 mm%ISO 13468-289 CLuminous transmittance (clear transparent materials)2 mm%ISO 13468-289 Luminous transmittance (clear transparent materials)3 mm%ISO 13468-288 Luminous transmittance (clear transparent materials)4 mm%ISO 13468-287 Processing conditions for test specimensCInjection molding-Melt temperature CISO 294280 CInjection molding-Mold temperature CISO 29480 CInjection molding-Injection velocitymm/sISO 294200 Makrolon 2458 Page 2 of 4 pagesMakrolon Edition DatasheetCThese property characteristics are taken from the CAMPUS plastics data bank and are based on the international catalogue of basic data forplastics according to ISO 2458 Page 3 of 4 pagesMakrolon Edition DatasheetDisclaimerDisclaimer for Sales productsThis information and our technical advice - whether verbal, in writing or by way of trials - are given in good faith but without warranty, and this also applies where proprietary rights of third parties areinvolved.

7 Our advice does not release you from the obligation to verify the information currently provided - especially that contained in our safety data and technical information sheets - and to testour products as to their suitability for the intended processes and uses. The application, use and processing of our products and the products manufactured by you on the basis of our technicaladvice are beyond our control and, therefore, entirely your own responsibility. Our products are sold in accordance with the current version of our General Conditions of Sale and valuesUnless specified to the contrary, the values given have been established on standardised test specimens at room temperature. The figures should be regarded as guide values only and not asbinding minimum values. Kindly note that, under certain conditions, the properties can be affected to a considerable extent by the design of the mould/die, the processing conditions and products**Only Bayer plastics which fulfil the test requirements of ISO 10 993-1 may be used for medical articles which come within the scope of this standard.

8 Applications involving long-term contact forwhich Bayer plastics are not intended are exceptions. However, the biocompatibility tests which we perform according to this standard do not cover the following ranges of application for medicalarticles manufactured from our material: Long-term use over 30 days, particularly use as (cosmetic or reconstructive) implant Long-term contact over 30 days with endogenous substances (blood,tissue, dentin, other body fluids) Multiple use for medical applications Therefore Bayer plastics should not be used for long-term applications or with long-term contact. Use of recycled material andincompatible additives Our test results for biocompatibility do not apply to the use of recycled materials or the use of other additional material components in the finished product.

9 Responsibility of themanufacturer of the medical article The use of our material outside the above-mentioned test scope of ISO 10 993-1 occurs exclusively on the responsibility of the processor of our material and themanufacturer of the finished product. As regards the production conditions of the processor of our material which are not known to us, it is the responsibility of the processor to ascertain thesuitability of our materials in the finished product in terms of directives and statutes to be observed. The suitability of our materials also depends on the ambient conditions (see below) for thefinished product. Chemical compatibility, temperature, design of the medical article, method of sterilization, internal stress within the finished article, and external stress all influence suitability, andare therefore the responsibility of the processor and the manufacturer of the finished product.

10 Multiple-use of medical articles Medical articles which are intended for single use and which weremanufactured from Bayer plastic are not suitable for multiple use. If the medical article was manufactured for multiple use, it is the responsibility of the manufacturer of the finished product todetermine an appropriate number of times it may be used, by determining and evaluating the conditions of sterilization and final use. Appropriate warnings and instructions must be given to the finaluser. Sterilization The use of various methods of sterilization and the permitted number of sterilization cycles for a medical article which is made from our materials depend on the design of the parts,the processing parameters, the sterilization temperature and the chemical environment.


Related search queries