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Номер профиля: ТП-116
ОБЩЕЕ ОПИСАНИЕ
Аннотация предложения
A German company has developed an innovative & high performance inorganic fire protection material,which is in both environmentally friendly and nontoxic.The effect of the material is based fundamentally on the generation of a sinter layer (densification of the material) at the exterior and the release of water vapour in coherence with a corresponding material.The company is looking for partners from Industry for the adjustment & advancement of the fire protection material to specific conditions.
Описание предложения
A German company has developed an innovative and high performance inorganic fire protection material, that can be applied as coating on subsurface, like e.g. mineral fibre slabs.

The fire protection is based on the cooling and delay effect by water vapour produced during the impact of fire by the fire protection compound in coherence with the corresponding material (like e.g. mineral fibre slabs). Beyond that the fire protection effect is supported by sintering of the exterior surface of the fire protection compound, the material densifies and hardens itself. At this invention the focus was put on the topics environmental friendly and non-toxicity. On the one hand only environmental friendly minerals were used for the fire protection material and during the impact of fire it neither comes to burn processes nor to the seperation of pollutants, whereby also no flue gases can form. On the other hand the non toxic effect and thus health safety are confirmed by a pollutant analysis of the material and its active agents.

The fire protection compound, consisting of a co-ordinated mixture of minerals and inorganic chemicals, is applied on a material with as much capillaries as possible, as e.g. with mineral fibre slabs, and in such a way serves as reliable and very effective fire protection material. The layer strength of the applied compound is within the range of 1,5 - 2.5 mm (also a strength of up to 6 mm is possible, still stronger layers however would bring no considerable advantages and would exceed the degree of efficiency).

The effect of the fire protection material can be described as follows: During the impact of fire the fire protection material is heated up and the release of water vapour from the stored crystal bond water in the applied fire protection compound begins. This release is in effect over a temperature range from approx. 85°C to 800°C and lets the fire protection compound slightly expand, by flowing through it. At the same time the outer skin of the fire protection compound sinters, i.e. the material densifies and hardens itself. This sinter layer represents a very firm, glasslike barrier and reflection layer for the temperature range from approx. 800°C to 1150°C.

Such a sintering at the outer skin of the material has the consequence that with a higher temperature the depressing speed of the water vapour declines. Through this the exposure time of this cooling mixture within the range of the coating and the capillaries of the underlying corresponding material extends as well as the cooling and delay effect of the entire fire protection layer increases.

If one would expose the fire protection compound to the fire alone, the effect of the water vapour emergence deflagrates, because the slowing characteristic of a "corresponding Material" is missing.

By using such a fire protection material substantial savings would be possible in relation to conventional fire protection versions, due to the high efficiency of this new and innovative fire protection compound. The high effectiveness of the fire protection compound is shown in comparison with conventional variants: For the protection of an air duct a 70 mm thick mineral fibre slab with a gross density of 150 kg/cbm would be necessary to reach a fire resistance time of approx. 90 min. In comparison the new fire protection compound with a layer strength of approx. 2.5 mm on a mineral fibre slab, as corresponding material, a fire resistance time of 120 min. could be reached with only one approx. 40 mm thick slab with a gross density of only 80 kg/cbm.

Thus it becomes clear that by using the fire protection compound a much lighter sub-construction can be used and less assembling time is needed. The fire protection compound brings as coating or "dressing" a far smaller assembly expenditure and nevertheless higher qualities concerning the fire protection. The consequence would be thus a clear cost saving opposing conventional fire protection materials. An exact performance figure concerning the fire resistance time can be determined only in connection with the corresponding material used in each case. However the melting point of the main parts of the fire protection compound lies between 1200 and 1850°C.

A drawing can be send by email that points out the structure of the fire protection compound as well as the structure of the compound in connection with one "corresponding" Material.

The company is looking for a cooperation partner for the adjustment and advancement of the fire protection material to specific conditions.
Инновационные аспекты предложения
- Cost saving opposing conventional fire protection materials.
- Environmentally friendly and non-toxic.
- Much thinner slab and therefore a lighter sub-construction can be used.
- Less assembling time is needed.
Главные преимущества предложения
Данные отсутствуют
Технологические ключевые слова
Теплоизоляция, энергетическая эффективность зданий
Огнестойкость /пожарная безопасность
Строительные материалы, компоненты и методы
Технологии строительства
Покрытия
Текущая стадия развития
  • Промышленный образец
Дополнительная информация
Данные отсутствуют
Права интеллектуальной собственности
  • Секретное know-how
Комментарии
Даты и номера имеющихся патентов
Данные отсутствуют
РЫНОЧНЫЕ ПРИМЕНЕНИЯ
Краткие коды рыночных применений
Промышленность
  • Строительство
Энергетика
  • Энергетика
Рыночные применения
- fire protection for civil constructions, buildings, AC-ducts, cable-trays
- thermal insulation for fire-dampers and/or –doors
- fire protection and thermal insulation for ships and off shore constructions
СОТРУДНИЧЕСТВО
Тип требующегося сотрудничества
  • Техническая кооперация
  • Производственное соглашение
Предпочитаемые страны
Данные отсутствуют
КОММЕНТАРИИ
Тип искомого партнера
Companies active in: -the production and sale of fire-protection materials; -in consulting in fire protection
Область деятельности партнера
All areas in which fire protection is needed
Задачи, стоящие перед партнером
Adjustment and advancement of the fire protection material to specific conditions
Дополнительная информация
Данные отсутствуют
ИНФОРМАЦИЯ ОБ ОРГАНИЗАЦИИ/ФИРМЕ
Тип
  • Промышленность
Размер организации / фирмы
  • < 10 сотрудников
ФОРМА ВЫРАЖЕНИЯ ИНТЕРЕСА

Если данный технологический профиль представляет для вас или ваших клиентов интерес, и вы готовы предложить авторам профиля требуемое сотрудничество, необходимо заполнить представленную ниже анкету. Данная анкета будет отправлена администратору члена сети - представившего информацию по профилю, который в свою очередь передаст ее авторам профиля. Вкратце опишите информацию по предлагаемому сотрудничеству. Сообщите свои координаты, чтобы администратор мог связаться с Вами (для контакта по e-mail - адрес электронной почты, для контакта по факсу - номер факса, для контакта по почте - почтовый адрес). Обязательны к заполнению поля: Организация/компания, Контактное лицо, Город, Телефон и E-mail.

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Дата публикации: 2009-10-12 | Вернуться
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