New Approaches to Pore Size Engineering of Mesoporous Silicates

2.1 eV absorbance observed by spectroelectrochemistry. This transition, which occurs in the visible region, grows in at high potentials beyond 0.45 V and gives rise to the third color state. The luminance measurements are reversible between ±0.25 V and 1.1 V. After 1.1 V, an increase in luminance is

A typical cement paste pore-size distribution from mercury intrusion porosimetry has a hysteresis loop during an intrusion -extrusion -reintrusion cycle. The hysteresis can be eliminated merely by selecting an appropriately smaller receding contact angle. This allows one to subdivide the total pore-

A comparison of literature methods for the calculation of the mesopore size distribution (PSD) is made on the basis of nitrogen adsorption isotherms of aluminum hydroxide, aluminum oxide, and silica gel characterized by well defined \(\mathrm{H} 1, \mathrm{H} 2, \mathrm{H} 3\), and \(\mathrm{H} 4\)

In this paper, a new concept of pore distribution is discussed and consequently a new approach to the determination of pore distribution by penetrating chlorides into concrete is proposed. This approach involves 1) accelerating chloride penetration into concrete specimens by applying an electrical f