introduce
Hydroxypropyl methylcellulose (HPMC) is a cellulose ether that is widely used in various industries such as food, medicine, and construction as a thickener, emulsifier, and stabilizer. In the construction industry, HPMC is often used as an additive to cement-based materials to achieve desired properties such as workability, water retention and durability. Studies have found that adding HPMC to cement-based materials delays the hydration process of cement, ultimately affecting the strength development of cement-based materials.
Effect of HPMC on cement hydration
Cement hydration is a complex chemical reaction involving the reaction of water with dry cement particles. During the hydration process, cement particles react with water to form various hydration products, which help improve the strength of cement-based materials. Studies have found that the addition of HPMC to cement-based materials can delay cement hydration, thereby altering the rate and extent of strength development.
One of the main reasons for delayed cement hydration is the water retention properties of HPMC. HPMC is a hydrophilic polymer that absorbs water and swells to form a gel-like structure. When HPMC is added to cement-based materials, it absorbs water from the mixture, thereby reducing the free water needed to hydrate the cement. This in turn slows down the hydration process, as the reaction of cement with water requires an adequate supply of water.
Another factor that contributes to delayed cement hydration is the adsorption of HPMC on the surface of cement particles. HPMC has a high affinity for cement particles due to its polarity. It can be adsorbed on the surface of cement particles and form a physical barrier to limit the contact between water molecules and cement particles. This in turn slows down the reaction of cement with water, resulting in delayed cement hydration.
The addition of HPMC to cement-based materials will also affect the nucleation and crystal growth process of hydration products. Hydration of cement involves the formation of various crystalline phases, such as calcium silicate hydrate (C-S-H) and calcium hydroxide (CH). HPMC can inhibit the nucleation and crystal growth of some of these phases, further slowing cement hydration.
The mechanism of cement hydration delay
The primary mechanism by which HPMC delays cement hydration is the formation of a physical barrier between cement particles and water. When HPMC is dispersed in water, it forms a gel-like matrix that can encapsulate cement particles and reduce the availability of free water for cement hydration. This in turn slows down the reaction of cement with water, causing a delay in the strength development of cement-based materials.
Another mechanism is the adsorption of HPMC onto the surface of cement particles. HPMC has a high affinity for cement particles due to its polarity. It can be adsorbed on the surface of cement particles and form a physical barrier to limit the contact between water molecules and cement particles. This further slows down the reaction of cement with water.
HPMC can also interact with various components of cement, such as calcium ions, thereby affecting the nucleation and crystal growth processes of hydration products. HPMC can inhibit the nucleation and crystal growth of some of these phases, further slowing cement hydration.
in conclusion
The addition of HPMC to cementitious materials can delay cement hydration, thereby changing the rate and extent of strength development. The mechanism of delayed cement hydration is mainly due to the formation of a physical barrier between cement particles and water, which is adsorbed on the surface of cement particles and inhibits the nucleation and crystal growth process of hydration products. Understanding the mechanisms by which HPMC retards cement hydration may allow us to optimize the use of HPMC in cementitious materials to obtain the desired properties while maintaining the strength development of cementitious materials.
Post time: Oct-24-2023