![Wood-Water Relations [electronic resource] /](/search/themes/bootstrap3/images/libros.png)
Wood-Water Relations [electronic resource] /
Wood is formed in an essentially water-saturated environment in the living tree, and the cell wall remains in this state until the water flow from the roots is interrupted, such as by felling the tree. The wood then begins to lose most of its moisture by drying, resulting in changes in most of its physical properties. These changes, and their relationship to the environment to which the wood is subsequently ex posed, are the subject of this book. The text consists of six chapters. The first chapter discusses cer tain empirical relationships between wood and water, methods of measuring wood moisture content, factors which affect its equilib rium moisture content, and the effect of moisture content on wood strength. The second chapter treats the thermodynamics of moisture sorption by wood, inc1uding enthalpy, entropy, and free energy changes. The third chapter discusses some of the theories which have been proposed to explain the sorption isotherms for hygroscopic ma terials such as wood. Chapter 4 considers hygroexpansion or the shrinking and swelling of wood associated with moisture change. Chapter 5 is concerned with how moisture moves through the cell wall of wood in response to both moisture and temperature gradients. The sixth and final chapter discusses the theoretical and practical aspects of the electrical resistance and dielectric properties of wood, in c1uding the principles involved in their application in electrical moisture meters.
Saved in:
| Main Authors: | , |
|---|---|
| Format: | Texto biblioteca |
| Language: | eng |
| Published: |
Berlin, Heidelberg : Springer Berlin Heidelberg,
1988
|
| Subjects: | Life sciences., Agriculture., Forestry., Plant science., Botany., Materials science., Life Sciences., Plant Sciences., Characterization and Evaluation of Materials., |
| Online Access: | http://dx.doi.org/10.1007/978-3-642-73683-4 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| id |
KOHA-OAI-TEST:230201 |
|---|---|
| record_format |
koha |
| institution |
COLPOS |
| collection |
Koha |
| country |
México |
| countrycode |
MX |
| component |
Bibliográfico |
| access |
En linea En linea |
| databasecode |
cat-colpos |
| tag |
biblioteca |
| region |
America del Norte |
| libraryname |
Departamento de documentación y biblioteca de COLPOS |
| language |
eng |
| topic |
Life sciences. Agriculture. Forestry. Plant science. Botany. Materials science. Life Sciences. Agriculture. Forestry. Plant Sciences. Characterization and Evaluation of Materials. Life sciences. Agriculture. Forestry. Plant science. Botany. Materials science. Life Sciences. Agriculture. Forestry. Plant Sciences. Characterization and Evaluation of Materials. |
| spellingShingle |
Life sciences. Agriculture. Forestry. Plant science. Botany. Materials science. Life Sciences. Agriculture. Forestry. Plant Sciences. Characterization and Evaluation of Materials. Life sciences. Agriculture. Forestry. Plant science. Botany. Materials science. Life Sciences. Agriculture. Forestry. Plant Sciences. Characterization and Evaluation of Materials. Skaar, Christen. author. SpringerLink (Online service) Wood-Water Relations [electronic resource] / |
| description |
Wood is formed in an essentially water-saturated environment in the living tree, and the cell wall remains in this state until the water flow from the roots is interrupted, such as by felling the tree. The wood then begins to lose most of its moisture by drying, resulting in changes in most of its physical properties. These changes, and their relationship to the environment to which the wood is subsequently ex posed, are the subject of this book. The text consists of six chapters. The first chapter discusses cer tain empirical relationships between wood and water, methods of measuring wood moisture content, factors which affect its equilib rium moisture content, and the effect of moisture content on wood strength. The second chapter treats the thermodynamics of moisture sorption by wood, inc1uding enthalpy, entropy, and free energy changes. The third chapter discusses some of the theories which have been proposed to explain the sorption isotherms for hygroscopic ma terials such as wood. Chapter 4 considers hygroexpansion or the shrinking and swelling of wood associated with moisture change. Chapter 5 is concerned with how moisture moves through the cell wall of wood in response to both moisture and temperature gradients. The sixth and final chapter discusses the theoretical and practical aspects of the electrical resistance and dielectric properties of wood, in c1uding the principles involved in their application in electrical moisture meters. |
| format |
Texto |
| topic_facet |
Life sciences. Agriculture. Forestry. Plant science. Botany. Materials science. Life Sciences. Agriculture. Forestry. Plant Sciences. Characterization and Evaluation of Materials. |
| author |
Skaar, Christen. author. SpringerLink (Online service) |
| author_facet |
Skaar, Christen. author. SpringerLink (Online service) |
| author_sort |
Skaar, Christen. author. |
| title |
Wood-Water Relations [electronic resource] / |
| title_short |
Wood-Water Relations [electronic resource] / |
| title_full |
Wood-Water Relations [electronic resource] / |
| title_fullStr |
Wood-Water Relations [electronic resource] / |
| title_full_unstemmed |
Wood-Water Relations [electronic resource] / |
| title_sort |
wood-water relations [electronic resource] / |
| publisher |
Berlin, Heidelberg : Springer Berlin Heidelberg, |
| publishDate |
1988 |
| url |
http://dx.doi.org/10.1007/978-3-642-73683-4 |
| work_keys_str_mv |
AT skaarchristenauthor woodwaterrelationselectronicresource AT springerlinkonlineservice woodwaterrelationselectronicresource |
| _version_ |
1756271497550233600 |
| spelling |
KOHA-OAI-TEST:2302012018-07-31T00:12:21ZWood-Water Relations [electronic resource] / Skaar, Christen. author. SpringerLink (Online service) textBerlin, Heidelberg : Springer Berlin Heidelberg,1988.engWood is formed in an essentially water-saturated environment in the living tree, and the cell wall remains in this state until the water flow from the roots is interrupted, such as by felling the tree. The wood then begins to lose most of its moisture by drying, resulting in changes in most of its physical properties. These changes, and their relationship to the environment to which the wood is subsequently ex posed, are the subject of this book. The text consists of six chapters. The first chapter discusses cer tain empirical relationships between wood and water, methods of measuring wood moisture content, factors which affect its equilib rium moisture content, and the effect of moisture content on wood strength. The second chapter treats the thermodynamics of moisture sorption by wood, inc1uding enthalpy, entropy, and free energy changes. The third chapter discusses some of the theories which have been proposed to explain the sorption isotherms for hygroscopic ma terials such as wood. Chapter 4 considers hygroexpansion or the shrinking and swelling of wood associated with moisture change. Chapter 5 is concerned with how moisture moves through the cell wall of wood in response to both moisture and temperature gradients. The sixth and final chapter discusses the theoretical and practical aspects of the electrical resistance and dielectric properties of wood, in c1uding the principles involved in their application in electrical moisture meters.1 Wood Moisture and the Environment -- 1.1 Humidity and Vapor Pressure of Water -- 1.2 Measurement of Wood Moisture Content and Humidity -- 1.3. Moisture Content of Green Wood -- 1.4. Equilibrium Moisture Content of Wood -- 1.5 Moisture Content of Wood in Use -- 1.6 Fiber-Saturation Point -- 1.7 Moisture Content and Strength of Wood -- 2 Moisture Sorption Thermodynamics -- 2.1 Introduction -- 2.2 Thermodynamic Properties of Water -- 2.3 Enthalpy Changes During Moisture Sorption -- 2.4 Free-Energy and Entropy Changes During Moisture Sorption -- 2.5 Moisture Sorption and Specific Heat of Wood -- 2.6 Swelling Pressure of Wood -- 2.7 Mechanical Stress and Sorption (Hygroelastic Effect) -- 2.8 Mechanical Stress and Sorption Hysteresis -- 3 Theories of Water Sorption by Wood -- 3.1 Introduction -- 3.2 Moisture Sorption Theories and Equations -- 4 Hygroexpansion in Wood -- 4.1 Introduction -- 4.2 Definition of Terms -- 4.3 Volumetric Hygroexpansion of the Wood Cell Wall -- 4.4 Volumetric Hygroexpansion of Wood -- 4.5 Directional Hygroexpansion in Wood -- 4.6 Hygroexpansion and Mechanical Stress -- 4.7 Reducing Hygroexpansion in Wood -- 5 Moisture Movement in the Wood Cell Wall -- 5.1 Introduction -- 5.2 Isothermal Moisture Diffusion -- 5.3 Irreversible Thermodynamics and Nonisothermal Diffusion -- 6 Electrical Properties of Wood -- 6.1 Introduction -- 6.2 Electrical Resistance -- 6.3 Dielectric Properties -- 6.4 Electrical Moisture Meters -- References -- List of Symbols -- List of Subscripts.Wood is formed in an essentially water-saturated environment in the living tree, and the cell wall remains in this state until the water flow from the roots is interrupted, such as by felling the tree. The wood then begins to lose most of its moisture by drying, resulting in changes in most of its physical properties. These changes, and their relationship to the environment to which the wood is subsequently ex posed, are the subject of this book. The text consists of six chapters. The first chapter discusses cer tain empirical relationships between wood and water, methods of measuring wood moisture content, factors which affect its equilib rium moisture content, and the effect of moisture content on wood strength. The second chapter treats the thermodynamics of moisture sorption by wood, inc1uding enthalpy, entropy, and free energy changes. The third chapter discusses some of the theories which have been proposed to explain the sorption isotherms for hygroscopic ma terials such as wood. Chapter 4 considers hygroexpansion or the shrinking and swelling of wood associated with moisture change. Chapter 5 is concerned with how moisture moves through the cell wall of wood in response to both moisture and temperature gradients. The sixth and final chapter discusses the theoretical and practical aspects of the electrical resistance and dielectric properties of wood, in c1uding the principles involved in their application in electrical moisture meters.Life sciences.Agriculture.Forestry.Plant science.Botany.Materials science.Life Sciences.Agriculture.Forestry.Plant Sciences.Characterization and Evaluation of Materials.Springer eBookshttp://dx.doi.org/10.1007/978-3-642-73683-4URN:ISBN:9783642736834 |