| 1 Introduction |
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1 | (4) |
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1.1 General Remarks on Wood Material |
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1 | (2) |
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3 | (2) |
| Part I Environmental Acoustics |
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5 | (32) |
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2 Acoustics of Forests and Acoustic Quality Control of Some Forest Products |
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7 | (14) |
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2.1 Acoustics of Forests and Forest Products |
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7 | (7) |
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2.2 Ultrasonic Sensing of the Characteristics of Standing Trees |
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14 | (1) |
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2.3 Ultrasound for Detection of Germinability of Acorns |
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14 | (5) |
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19 | (2) |
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3 Wood and Wood-Based Materials in Architectural Acoustics |
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21 | (18) |
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3.1 Influence of the Anatomic Structure of Wood on Sound Absorption |
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21 | (2) |
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3.2 Wood Materials as Acoustical Insulators |
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23 | (7) |
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3.3 Wood and the Acoustics of Concert Halls |
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30 | (6) |
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36 | (1) |
| Part II Material Characterization |
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37 | (134) |
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4 Theory of and Experimental Methods for the Acoustic Characterization of Wood |
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39 | (66) |
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4.1 Elastic Symmetry of Propagation Media |
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40 | (9) |
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40 | (1) |
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41 | (8) |
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4.2 Wave Propagation in Anisotropic Media |
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49 | (20) |
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4.2.1 Propagation of Ultrasonic Bulk Waves in Orthotropic Media |
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50 | (1) |
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4.2.1.1 Velocities and Stiffnesses, the Eigenvalues of Christoffel's Equations |
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52 | (1) |
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4.2.1.2 The Eigenvectors of Christoffel's Equations |
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58 | (4) |
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4.2.2 Mechanical Vibrations in the Acoustic Frequency Range |
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62 | (1) |
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4.2.2.1 Resonance Vibration Modes in Rods and Plates |
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62 | (1) |
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4.2.2.2 Engineering Constants |
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63 | (6) |
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4.3 Velocity of Ultrasonic Waves in Wood |
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69 | (21) |
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71 | (1) |
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71 | (1) |
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72 | (2) |
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4.3.2 Specimens for Ultrasonic Testing |
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74 | (1) |
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4.3.2.1 Preparation of Samples |
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75 | (1) |
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80 | (1) |
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4.3.2.3 Specimens of Finite Dimensions |
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82 | (1) |
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4.3.2.4 Influence of the Physical Properties of Wood on Measurement of Ultrasonic Velocity |
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86 | (4) |
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4.4 Attenuation of Ultrasonic Waves in Wood |
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90 | (8) |
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4.4.1 Theoretical Considerations |
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91 | (1) |
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4.4.2 Measurement Technique |
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92 | (1) |
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4.4.3 Factors Affecting Attenuation Measurements in Wood |
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92 | (1) |
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4.4.3.1 Geometry of the Specimen |
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92 | (1) |
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4.4.3.2 Characteristics of the Material |
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94 | (4) |
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4.5 Internal Friction in Wood in the Audible Frequency Range |
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98 | (5) |
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4.5.1 Typical Values of Damping Coefficients |
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99 | (1) |
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4.5.2 Damping Coefficients as Indicators of Microstructural Modifications Induced by Different Factors |
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99 | (1) |
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4.5.2.1 Temperature and Moisture Content |
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100 | (1) |
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4.5.2.2 Chemical Treatment |
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101 | (1) |
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103 | (1) |
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103 | (2) |
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5 Elastic Constants of Wood Material |
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105 | (36) |
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5.1 Global Elastic Characterization |
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105 | (23) |
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5.1.1 Wood as an Orthotropic Solid with Well-Defined Anisotropic Directions |
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106 | (1) |
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5.1.1.1 Optimization of Criteria for Off-Diagonal Terms of the Stiffness Matrix Determined by Bulk Waves and Orthotropic Symmetry |
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106 | (1) |
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5.1.1.2 Stiffnesses and Mode Conversion Phenomena from Bulk to Surface Waves |
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118 | (1) |
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5.1.1.3 Young's Moduli, Shear Moduli, and Poisson's Ratios from Dynamic (Ultrasonic and Frequency Resonance) and Static Tests |
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122 | (2) |
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5.1.2 Wood as a Triclinic Solid with Unknown Anisotropic Directions |
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124 | (1) |
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5.1.2.1 Ultrasonic Measurements |
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127 | (1) |
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5.1.2.2 Discrepancy from the Raw Stiffness Tensor to Each Symmetry Level |
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127 | (1) |
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5.2 Local Elastic Characterization |
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128 | (10) |
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5.2.1 Acoustic Microscopy |
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129 | (1) |
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5.2.1.1 Operating Principle |
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129 | (1) |
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131 | (3) |
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5.2.2 Photoacoustics in Wood Science |
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134 | (1) |
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134 | (1) |
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135 | (1) |
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136 | (2) |
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138 | (3) |
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6 Wood Structural Anisotropy and Ultrasonic Parameters |
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141 | (32) |
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6.1 Filtering Action Induced by Anatomical Structure of Wood |
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141 | (2) |
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6.2 Estimation of Anisotropy by Velocities of Longitudinal and Transverse Bulk Waves |
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143 | (5) |
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6.3 Estimation of Anisotropy by Invariants |
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148 | (8) |
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6.3.1 Acoustic Invariants |
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148 | (4) |
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152 | (4) |
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6.4 Nonlinearity and Wood Anisotropy |
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156 | (12) |
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6.4.1 Nonlinearity in Solids |
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156 | (1) |
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6.4.2 Nonlinear Response of Wood in Nonlinear Acoustic Experiments |
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157 | (1) |
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6.4.3 Nonlinearity Response of Wood in Acoustoelastic Experiments |
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158 | (1) |
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6.4.3.1 Acoustoelastic Experiments Under Confining Pressure |
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159 | (1) |
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6.4.3.2 Acoustoelastic Experiments Under Static Stress |
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167 | (1) |
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168 | (3) |
| Part III Quality Assessment |
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171 | (176) |
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7 Wood Species for Musical Instruments |
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173 | (44) |
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7.1 Acoustical Properties of Wood Species |
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173 | (25) |
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7.1.1 Acoustical Properties of Resonance Wood for Violins |
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174 | (1) |
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7.1.1.1 Spruce Resonance Wood |
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176 | (1) |
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179 | (1) |
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180 | (1) |
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7.1.1.4 Wood for Other Components |
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180 | (1) |
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7.1.2 Acoustical Properties of Wood for Guitars |
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181 | (1) |
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7.1.3 Acoustical Properties of Wood for Woodwind Instruments |
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182 | (1) |
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7.1.4 Acoustical Properties of Wood for Percussion Instruments |
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183 | (1) |
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7.1.5 Acoustical Properties of Wood for Keyboard Instruments: The Piano |
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184 | (3) |
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7.1.6 Relationships Between Elastic Properties of Resonance Wood and its Typical Structural Characteristics |
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187 | (1) |
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7.1.6.1 Macroscopic Structural Parameters |
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187 | (1) |
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7.1.6.1.1 Growth Ring Pattern |
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187 | (1) |
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7.1.6.1.2 Densitometric Pattern of Annual Rings in Resonance Wood |
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190 | (2) |
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7.1.6.2 Microscopic and Submicroscopic Structural Parameters |
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192 | (1) |
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7.1.6.2.1 Fine Anatomic Scale |
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192 | (1) |
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7.1.6.2.2 Mineral Constituents of the Cell Wall |
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195 | (1) |
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7.1.7 Tone Quality of Musical Instruments and Wood Properties |
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196 | (2) |
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7.2 Factors Affecting Acoustical Properties of Wood for Musical Instruments |
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198 | (13) |
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7.2.1 Influence of Natural Aging on Resonance Wood |
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198 | (3) |
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7.2.2 Influence of Environmental Conditions |
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201 | (1) |
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7.2.3 Influence of Long-Term Loading |
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202 | (3) |
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7.2.4 Influence of -Varnishing |
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205 | (6) |
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7.3 Chemical Treatments to Improve the Acoustical Properties of Common Solid Wood Used for Mass-Produced Instruments |
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211 | (1) |
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7.4 Composites as Substitutes for Resonance Wood |
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212 | (2) |
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214 | (3) |
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8 Acoustic Methods as a Nondestructive Tool for Wood Quality Assessment |
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217 | (24) |
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8.1 Acoustics and Wood Quality |
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217 | (1) |
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8.2 Acoustic Methods Employed on Trees, Logs, Lumber, and Wood-Based Composites |
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218 | (17) |
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8.2.1 Quality of Assessment of Trees |
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218 | (1) |
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8.2.1.1 Detection of the Slope of the Grain with Ultrasound |
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218 | (1) |
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8.2.1.2 Detection of Reaction Wood |
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220 | (1) |
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8.2.1.3 Detection of Curly Figures in Trees |
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226 | (1) |
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8.2.1.4 Sylvicultural Treatment (Pruning, Thinning) |
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227 | (1) |
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229 | (1) |
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230 | (1) |
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231 | (1) |
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8.2.3.1 The Ultrasonic Velocity Method for Grading Lumber |
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231 | (1) |
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8.2.3.2 Stress-Wave Grading Technique for Testing Lumber |
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234 | (1) |
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8.3 Control of the Quality of Wood-Based Composites |
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235 | (3) |
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8.4 Other Nondestructive Techniques for Detection of Defects in Wood |
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238 | (1) |
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238 | (3) |
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9 Environmental Modifiers of Wood Structural Parameters Detected with Ultrasonic Waves |
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241 | (30) |
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9.1 Dependency of Ultrasonic Velocity and Related Mechanical Parameters of Wood on Moisture Content and Temperature |
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241 | (15) |
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9.1.1 Influence of Moisture Content on Solid Wood |
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241 | (4) |
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9.1.2 Influence of Temperature on Solid Wood |
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245 | (7) |
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9.1.3 Influence of Hygrothermal Treatment on the Quality of Wood-Based Composites |
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252 | (1) |
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9.1.4 Influence of Pressure |
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253 | (3) |
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9.1.5 Influence of Ionizing Radiation |
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256 | (1) |
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9.2 Ultrasonic Parameters and Biological Deterioration of Wood |
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256 | (14) |
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256 | (2) |
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258 | (5) |
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263 | (5) |
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268 | (2) |
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270 | (1) |
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271 | (44) |
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10.1 Principle and Instrumentation |
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271 | (8) |
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271 | (3) |
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274 | (1) |
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274 | (1) |
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10.1.2.2 Material Conditioning |
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276 | (1) |
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276 | (1) |
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10.1.2.4 Amplifiers and Signal Processors |
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277 | (1) |
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10.1.2.5 Signal Processing |
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277 | (1) |
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10.1.2.6 Factors Affecting Acoustic Emission Response from Wooden Materials |
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278 | (1) |
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10.2 Acoustic Emission for the Structural Evaluation of Trees, Solid Wood, Particleboard, and Other Wood-Based Composites |
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279 | (16) |
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279 | (4) |
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10.2.2 Detecting the Activity of Biological Agents |
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283 | (2) |
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10.2.3 Acoustic Emission and Fracture Mechanics in Solid Wood and Wood-Based Composites |
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285 | (1) |
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285 | (1) |
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10.2.3.2 Wood-Based Composites |
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291 | (4) |
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10.3 Acoustic Emission for Monitoring Technological Processes |
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295 | (17) |
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10.3.1 Adhesive Curing and Adhesive Strength |
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296 | (4) |
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10.3.2 Acoustic Emission to Control the Drying of Lumber |
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300 | (4) |
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10.3.3 Acoustic Emission as a Strength Predictor in Timber and Large Wood Structures |
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304 | (3) |
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307 | (5) |
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312 | (3) |
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315 | (18) |
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315 | (1) |
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11.2 Principle and Instrumentation |
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315 | (7) |
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315 | (1) |
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316 | (1) |
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317 | (4) |
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321 | (1) |
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322 | (9) |
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11.3.1 Defect Detection in Wood |
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322 | (2) |
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11.3.2 Decay Detection in Structural Elements |
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324 | (4) |
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11.3.3 Detection of Adhesive Bond in Wood-Based Composites |
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328 | (3) |
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11.3.4 Detection of Integrity of Joints in Structural Elements |
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331 | (1) |
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331 | (2) |
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12 High-Power Ultrasonic Treatment for Wood Processing |
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333 | (14) |
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333 | (14) |
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334 | (2) |
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336 | (4) |
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340 | (1) |
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12.1.4 Plasticizing Effect |
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341 | (1) |
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12.1.5 Improvement of Extraction |
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341 | (1) |
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12.1.6 The Regeneration Effect of Ultrasound on Aged Glue Resins |
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342 | (1) |
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12.2 Improvement of Wood Preservation |
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342 | (3) |
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345 | (2) |
| References |
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347 | (40) |
| Subject Index |
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387 | |
