How does thermal conductivity affect rubber life?
Many researchers have focused on thermal conductivity [4, 5, 6] aiming to reduce the temperature by increasing the thermal conductivity, but few works focus on heat generation, which is another important aspect of rubber life.
Why does the temperature of rubber increase during a loading cycle?
In every loading cycle, part of the energy is changed into heat. Owing to the low thermal conductivity of rubber compounds, the generated heat inside rubbers slowly transmits to the surrounding environment; hence, the temperature of the compound significantly increases .
How does temperature affect rubber elasticity?
At very high temperatures, the thermal energy can begin to break down the chemical bonds within the polymer, leading to permanent deformation or loss of elasticity. Interestingly, within a certain temperature range, increasing temperature can actually make rubber more elastic.
What causes heat loss in rubber?
Correspondingly, heat generation is reduced. Therefore, the heat generation in rubber is not only related to stress and deformation of the rubber, but also the frequency of the dynamic loads applied to the rubber and temperature at a certain time. Energy loss comes from the friction between polymer chains, fillers, and polymer–filler interaction.
Can rubber composites dissipate heat in time?
Raising the thermal conductivity of rubber composites is profitable for the diffusion of heat and the decrease of the temperature rise . As a result, whether the composites can dissipate heat in time is the major factor for the normal service of rubber products.
What causes heat generation in rubber?
It is due to that the heat generation in rubber is mostly produced by the friction between networks, for example, polymer–polymer, filler–filler, and filler–polymer networks. Under dynamic loading, NS is the bridge to connect GO and nature rubber through the strong chemical bonds to prevent the NR from sliding along the surface of GO.
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近日,机电学院特聘教授李蔚教授带领我校强化传热团队与纽约州立大学布法罗分校(State University of New York College at Buffalo)David J. Kukulka教授团队和美国纽约Vipertex公司合作,在工业换热器三维表面结构强化换热管两相流动换热研究领域取得了突破性进展,研究成果以“Condensation Characteristics of Flows in Newly Developed Three-Dimensional Enhanced Heat Transfer
Converting low-grade heat into mechanical energy using a
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Review on Heat Generation of Rubber Composites
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Does Rubber Transfer Heat?
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How heat affects rubber elasticity
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PHASE-CHANGE MATERIAL: NATURAL RUBBER
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Heat Build‐Up of Rubber in Different Deformation
Heat build-up (HBU) under deformation is a critical characteristic of rubber materials, and it significantly influences the performance and service safety of final products.
How heat affects rubber elasticity
Learn how heat impacts rubber elasticity, exploring the effects of temperature on rubber's molecular structure and its practical applications.
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What is Thermal Energy Storage?
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