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Question:

Is fiberglass fabric resistant to chemicals in pharmaceutical industry?

Answer:

Generally, chemicals in the pharmaceutical industry are resisted by fiberglass fabric. Fiberglass is composed of woven glass fibers, resulting in a durable and robust fabric. This fabric is known for its ability to resist various chemicals commonly used in the pharmaceutical industry, such as acids, alkalis, solvents, and different cleaning agents. Moreover, fiberglass fabric does not readily interact with chemicals or emit harmful substances, making it an appropriate choice for applications where chemical resistance is crucial, like in the pharmaceutical industry where the fabric may encounter different chemicals during manufacturing processes or in cleanrooms. However, it is essential to consider the specific type of fiberglass fabric and the specific chemicals involved to ensure proper compatibility and resistance.
Yes, fiberglass fabric is generally resistant to chemicals in the pharmaceutical industry. Fiberglass is made from glass fibers that are woven together, creating a strong and durable fabric. This fabric is known for its resistance to many chemicals, including those commonly used in the pharmaceutical industry such as acids, alkalis, solvents, and various cleaning agents. Fiberglass fabric is also non-reactive, meaning it does not readily interact with chemicals or release harmful substances. This makes it a suitable choice for applications where chemical resistance is important, such as in the pharmaceutical industry where the fabric may come into contact with various chemicals during manufacturing processes or in cleanrooms. However, it is important to note that the specific type of fiberglass fabric and the specific chemicals involved should be considered to ensure proper compatibility and resistance.
Yes, fiberglass fabric is generally resistant to chemicals in the pharmaceutical industry. It is commonly used in pharmaceutical settings due to its high chemical resistance and ability to withstand harsh chemical environments.

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