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CAMPUS® datasheet | CELCON M140
This datasheet of CELCON M140 from Ticona is provided by the international plastics database CAMPUS.
You may contact the supplier for more information about this grade.
CELCON M140 | POM | Ticona
Описание продукта
Celcon® acetal copolymer grade M140 is a moderately high flow general
purpose injection molding grade. It is designed for use in applications
requiring some enhanced flow characteristics over the standard Celcon®
M90 material.
Chemical abbreviation according to ISO 1043-1: POM
Please also see Hostaform® C 13021.
purpose injection molding grade. It is designed for use in applications
requiring some enhanced flow characteristics over the standard Celcon®
M90 material.
Chemical abbreviation according to ISO 1043-1: POM
Please also see Hostaform® C 13021.
| Реологические свойства | Значение | Единица | Стандарт |
| Показатель текучести расплава, ПТР | 12 | см³/10мин | ISO 1133 |
| Температура | 190 | °C | ISO 1133 |
| Нагрузка | 2.16 | кг | ISO 1133 |
| Усадка при литье, продольная | 1.8 | % | ISO 294-4, 2577 |
| Усадка при литье, поперечная | 1.7 | % | ISO 294-4, 2577 |
| Механические свойства | Значение | Единица | Стандарт |
| Модуль упругости при растяжении | 2740 | МПа | ISO 527-1/-2 |
| Модуль ползучести при растяжении, 1ч | 2350 | МПа | ISO 899-1 |
| Модуль ползучести при растяжении, 1000ч | 1300 | МПа | ISO 899-1 |
| Ударная вязкость по Шарпи с надрезом, +23°C | 6 | кДж/м2 | ISO 179/1eA |
| Теплофизические свойства | Значение | Единица | Стандарт |
| Температура плавления, 10°C/мин | 166 | °C | ISO 11357-1/-3 |
| Температура изгиба под нагрузкой, 1.80 МПа | 102 | °C | ISO 75-1/-2 |
| Температура изгиба под нагрузкой, 0.45 МПа | 156 | °C | ISO 75-1/-2 |
| Температура размягчения по Вика, 50°C/ч 50Н | 161 | °C | ISO 306 |
| Коэффициент линейного теплового расширения, продольный | 100 | E-6/K | ISO 11359-1/-2 |
| Коэффициент линейного теплового расширения, поперечный | 100 | E-6/K | ISO 11359-1/-2 |
| Прочие свойства | Значение | Единица | Стандарт |
| Водопоглощение | 0.75 | % | Sim. to ISO 62 |
| Поглощение влаги | 0.2 | % | Sim. to ISO 62 |
| Плотность | 1410 | кг/м³ | ISO 1183 |
| Параметры для расчета реологических свойств | Значение | Единица | Стандарт |
| Плотность расплава | 1200 | кг/м³ | - |
| Теплопроводность расплава | 0.155 | Вт/ (м К) | - |
| Удельная теплоемкость расплава | 2210 | Дж/(кг K) | - |
| Параметры изготовления образцов для испытаний | Значение | Единица | Стандарт |
| Параметры процесса переработки согласно ISO | 9990 | - | ISO ....-2 |
| Литье под давлением, температура расплава | 205 | °C | ISO 294 |
| Литье под давлением, температура пресс-формы | 90 | °C | ISO 10724 |
| Литье под давлением, скорость впрыска | 200 | мм/с | ISO 294 |
| Литье под давлением, давление на стадии выдержки | 86 | МПа | ISO 294 |
Диаграммы
Особые свойства и характеристики
Способы переработки
Литье под давлением
Вид поставки
Гранулы
Добавки
Добавка, улучшающая съем изделия с пресс-формы
Доступность материала по регионам
Дискламация
NOTICE TO USERS: Values shown are based on testing of laboratory test specimens and represent data that fall within the standard range of properties for natural material. These values alone do not represent a sufficient basis for any part design and are not intended for use in establishing maximum, minimum, or ranges of values for specification purposes. Colorants or other additives may cause significant variations in data values. Properties of molded parts can be influenced by a wide variety of factors including, but not limited to, material selection, additives, part design, processing conditions and environmental exposure. Any determination of the suitability of a particular material and part design for any use contemplated by the users and the manner of such use is the sole responsibility of the users, who must assure themselves that the material as subsequently processed meets the needs of their particular product or use. To the best of our knowledge, the information contained in this publication is accurate; however, we do not assume any liability whatsoever for the accuracy and completeness of such information. The information contained in this publication should not be construed as a promise or guarantee of specific properties of our products. It is the sole responsibility of the users to investigate whether any existing patents are infringed by the use of the materials mentioned in this publication. Moreover, there is a need to reduce human exposure to many materials to the lowest practical limits in view of possible adverse effects. To the extent that any hazards may have been mentioned in this publication, we neither suggest nor guarantee that such hazards are the only ones which exist. We recommend that persons intending to rely on any recommendation or to use any equipment, processing technique, or material mentioned in this publication should satisfy themselves that they can meet all applicable safety and health standards. We strongly recommend that users seek and adhere to the manufacturer's current instructions for handling each material they use, and to entrust the handling of such material to adequately trained personnel only. Please call the telephone numbers listed for additional technical information. Call Customer Services for the appropriate Materials Safety Data Sheets (MSDS) before attempting to process our products. The products mentioned herein are not intended for use in medical or dental implants.
The CAMPUS internet database is hosted by M-Base Engineering + Software GmbH.
M-Base Engineering + Software GmbH assumes no liability for the system to be free of errors.
Any decision about the application of materials must be double checked with the producer of this material.
CAMPUS® is a registered trademark of CWFG mbH, Frankfurt am Main, 2012
CAMPUS® is a registered trademark of CWFG mbH, Frankfurt am Main, 2012