National handbook of plan reading and material listing for lumber and building material dealers, contractors, estimators and designers,

Blank pages for "Memoranda" (149-150)

Materials of construction

Mode of access: Internet.

The testing of materials of construction ; a text-book for the engineering laboratory and a collection of the results of experiment,

References: p. 11.

The study of ablation of structural plastic materials

"Preprint copy."

Materials of engineering.

pt. I. Non-metallic materials of engineering: stone, timber, fuel, lubricants, etc. 5th rev. ed. 1899.--pt. II. Iron and steel. 9th rev. ed. 1903.--pt. III. Brasses, bronzes, and other alloys, and their constituent metals. 4th ed. rev. 1900.

Materials of engineering.

pt. 1. A treatise on non-metallic materials of engineering: Stone, timber, fuel, lubricants, etc. Fifth rev. ed.--pt. 2. A treatise on iron and steel. Ninth rev. ed.--pt. 3. A treatise on brasses, bronzes, and other alloys, and their constituent metals. Fourth ed. rev.

Report of the tests of metals and other materials for industrial purposes; made with the United States testing machine at Watertown arsenal, Massachusetts.

Mode of access: Internet.

Johnson's Materials of construction,

Mode of access: Internet.

Guidance for controlling asbestos-containing materials in buildings /

"EPA 560/5-85-024"--Cover.

Experimental mechanics and properties of materials.

Mode of access: Internet.

New structural materials technologies : opportunities for the use of advanced ceramics and composites.

"OTA-TM-E-32"--P. [4] of cover.

Construction and Construction Materials

Successively Issued by: U.S. Bureau of Foreign and Domestic Commerce; U.S. Dept. of Commerce. Office of Domestic Commerce; U.S. Bureau of Foreign and Domestic Commerce

Building Resonance

Thesis (Master's)--University of Washington, 2016-06

Numerical calculation of diffraction coefficients from building edges using FDTD method

Finite Difference Time Domain (FDTD) Method and software are applied to obtain diffraction waves from modulated Gaussian plane wave illumination for right angle wedges and Fast Fourier Transform (FFT) is used to get diffraction coefficients in a wideband in the illuminated lit region. Theta and Phi polarization in 3-dimensional, TM and TE polarization in 2-dimensional cases are considered respectively for soft and hard diffraction coefficients. Results using FDTD method of perfect electric conductor (PEC) wedge are compared with asymptotic expressions from Uniform Theory of Diffraction (UTD). Extend the PEC wedges to some homogenous conducting and dielectric building materials for diffraction coefficients that are not available analytically in practical conditions. ^

Overview on bio-based building material made with plant aggregate

Global warming, energy savings, and life cycle analysis issues are factors that have contributed to the rapid expansion of plant-based materials for buildings, which can be qualified as environmental-friendly, sustainable and efficient multifunctional materials. This review presents an overview on the several possibilities developed worldwide about the use of plant aggregate to design bio-based building materials. The use of crushed vegetal aggregates such as hemp (shiv), flax, coconut shells and other plants associated to mineral binder represents the most popular solution adopted in the beginning of this revolution in building materials. Vegetal aggregates are generally highly porous with a low apparent density and a complex architecture marked by a multi-scale porosity. These geometrical characteristics result in a high capacity to absorb sounds and have hygro-thermal transfer ability. This is one of the essential characteristics which differ of vegetal concrete compared to the tradition mineral-based concretes. In addition, the high flexibility of the aggregates leads to a non-fragile elasto-plastic behavior and a high deformability under stress, lack of fracturing and marked ductility with absorbance of the strains ever after having reached the maximum mechanical strength. Due to the sensitivity to moisture, the assessment of the durability of vegetal concrete constitutes one of the next scientific challenging of bio-based building materials.