Biologically inspired textiles:
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Boca Raton [u.a.]
CRC Press [u.a.]
2008
|
| Ausgabe: | 1. publ. |
| Schriftenreihe: | Woodhead publishing in textiles
77 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXI, 219 S. Ill., graph. Darst. |
| ISBN: | 9781845692476 9781845695088 9781420079852 |
Internformat
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| 250 | |a 1. publ. | ||
| 264 | 1 | |a Boca Raton [u.a.] |b CRC Press [u.a.] |c 2008 | |
| 300 | |a XXI, 219 S. |b Ill., graph. Darst. | ||
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| 650 | 4 | |a Biomimetics |x Materials | |
| 650 | 4 | |a Materials |x Biotechnology | |
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Datensatz im Suchindex
| _version_ | 1804137948354969600 |
|---|---|
| adam_text | Contents
Contributor contact details
xi
Woodhead Publishing in Textiles
xiii
Introduction
xix
Part I Biomimetic principles, production and properties
1
Recombinant
DNA
methods applied to the
3
production of protein-based fibers as
biomaterials
F. TEULÉ
and
R.
LEWIS, University of Wyoming, USA;
W.
MARCOTTE
JR
and A. ABBOTT, Clemson University, USA
1.1
Introduction
3
1.2
Biomimetics and
protein-based biomaterials
4
1.3
Characteristics of some natural protein-based materials
5
1.4
Experimental characterization of model fibrous proteins
9
1.5
Expression systems available for
recombinant
fibrous
15
protein production
1.6
Artificial material production, properties and performance
20
1.7
Conclusions
20
1.8
References
21
2
Purification of protein solutions
26
S. HARCUM, Clemson University, USA
2.1
Introduction
26
2.2
Insoluble removal
28
2.3
Cell disruption
31
2.4
Soluble protein separations
34
2.5
Finishing steps
42
2.6
Conclusions and sources of further information and advice
43
2.7
References
43
vi
Contents
3
Spinning
of fibers
from protein solutions
44
F. TEULÉ,
University of Wyoming, USA
3.1
Introduction
44
3.2
In vivo or natural spinning of protein-based fibers
45
3.3
Protein-based fibrous materials
45
3.4
Silk production in spiders and insects: a natural
47
spinning process
3.5
Elements to consider for the in vitro or artificial
51
spinning of protein-based fibers
3.6
Factors involved in native self-assembly processes
52
3.7
Mimicking nature
53
3.8
Examples of protein-based fibers produced
55
through artificial spinning technologies
3.9
Wet-spinning of fibrous proteins
55
3.10
Electrospinning of fibrous proteins
60
3.11
Applications
65
3.12
Future trends and conclusions
65
3.13
References
66
4
Biomimetic principles of spider silk for
74
high-performance fibres
C. HOLLAND and
F. VOLLRATH,
University of Oxford, UK
4.1
Introduction
74
4.2
Unravelling structure-function relationships
77
4.3
Spider and worm spinning in vivo
81
4.4
Spinning in vitro
84
4.5
Future trends and applications
86
4.6
Conclusions
87
4.7
Sources of further information and advice
87
4.8
Acknowledgements
88
4.9
References
88
5
A biomimetic approach to the production of
95
sustainable structural composites using plant
fibres
C. SANTULLI,
University of Reading, UK
5.1
Biomimetic design of composite materials
95
5.2
Characteristics of biological materials in
biocomposites
97
Contents
vii
5.3
Fibre extraction,
fibre treatment
and matrix
99
compatibility in
a biomimetic composite
5.4
Approaches to the realisation of plant fibre composites
101
5.5
Conclusions: plant fibre selection for composites
108
reinforcement
5.6
References
109
Part II Biomimetic applications in textiles
6
Biomimetic principles in clothing technology
117
V. KAPSALI and P.
DUNAMORE,
London College of
Fashion, UK
6.1
Introduction
117
6.2
The technology of clothing
118
6.3
Overview of biomimetic design and development
122
6.4
Biomimetic principles and the clothing industry
126
6.5
Key issues
133
6.6
Future trends
133
6.7
Conclusions
134
6.8
Sources of further information and advice
135
6.9
Acknowledgements
135
6.10
References
135
7
Self-cleaning textiles using the Lotus Effect
137
T. STEGMAIER, V.
VON ARNIM,
A. SCHERRIEBLE
and
Η.
PLANCK, Institute of Textile Technology and
Process Engineering
Denkendorf (ITV),
Germany
7.1
Introduction: basics of self-cleaning textiles
137
7.2
Learning from the Lotus Effect: superhydrophobicity
138
and self-cleaning
7.3
Measuring techniques for the characteristic
142
Lotus Effect properties
7.4
Technical transfer
143
7.5
Applications
145
7.6
Future trends
148
7.7
Sources of further information and advice
148
7.8
References
149
viii Contents
8
Analysing the thermal properties of
150
animal furs for the production of artificial furs
L.
HES,
Technical University of
Liberec,
Czech Republic
8.1
Introduction
150
8.2
Brief survey of the manufacture of artificial furs
151
8.3
Experimental study
152
8.4
Water-vapour permeability of furs
164
8.5
Conclusions
166
8.6
References
167
9
The role of plant stems in providing biomimetic
168
solutions for innovative textiles in composites
M. M1LWICH and H. PLANCK, Institute of Textile Technology
and Process Engineering,
Denkendorf (ITV),
Germany;
T. SPECK and O. SPECK, Universitaet Freiburg, Germany
9.1
Introduction
168
9.2
Composites under development: smart composites
172
9.3
Using biomimetics to boost the performance of composites
173
9.4
Learning from a role model: horsetail (Equisetum hyemale)
175
9.5
Learning from a role model: giant reed (Arundo donax)
179
9.6
Learning from a role model: wood
182
9.7
Combination of different principles of role models into
183
the technical plant stem
9.8
Production methods and machinery equipment for the
183
technical plant stem
9.9
Applications of the technical plant stem
188
9.10
Conclusions and future trends
189
9.11
Acknowledgement
190
9.12
References
190
10
Bionic
developments based on textile materials
193
for technical applications
T. STEGMAIER, V.
VON ARNIM,
M.
LINKE,
M.
MILWICH,
J. SARSOUR,
A. SCHERRIEBLE, P.
SCHNEIDER
and
H.
PLANCK, Institute of Textile Technology and Process
Engineering
Denkendorf (ITV),
Germany
10.1
Introduction
193
10.2
Potential of fiber-based materials in bionics
194
10.3
Research activities in the field of surfaces
195
Contents
¡χ
10.4 Research
activities in environmental technology
196
10.5
Research activities in energy technology/management
203
10.6
Research activities in the field of lightweight constraction
209
10.7
Future trends
210
10.8
Conclusions
210
10.9
Sources of further information and advice
211
10.10
Acknowledgements
211
10.11
References
211
Index
213
|
| adam_txt |
Contents
Contributor contact details
xi
Woodhead Publishing in Textiles
xiii
Introduction
xix
Part I Biomimetic principles, production and properties
1
Recombinant
DNA
methods applied to the
3
production of protein-based fibers as
biomaterials
F. TEULÉ
and
R.
LEWIS, University of Wyoming, USA;
W.
MARCOTTE
JR
and A. ABBOTT, Clemson University, USA
1.1
Introduction
3
1.2
Biomimetics and
protein-based biomaterials
4
1.3
Characteristics of some natural protein-based materials
5
1.4
Experimental characterization of model fibrous proteins
9
1.5
Expression systems available for
recombinant
fibrous
15
protein production
1.6
Artificial material production, properties and performance
20
1.7
Conclusions
20
1.8
References
21
2
Purification of protein solutions
26
S. HARCUM, Clemson University, USA
2.1
Introduction
26
2.2
Insoluble removal
28
2.3
Cell disruption
31
2.4
Soluble protein separations
34
2.5
Finishing steps
42
2.6
Conclusions and sources of further information and advice
43
2.7
References
43
vi
Contents
3
Spinning
of fibers
from protein solutions
44
F. TEULÉ,
University of Wyoming, USA
3.1
Introduction
44
3.2
In vivo or natural spinning of protein-based fibers
45
3.3
Protein-based fibrous materials
45
3.4
Silk production in spiders and insects: a natural
47
spinning process
3.5
Elements to consider for the in vitro or 'artificial'
51
spinning of protein-based fibers
3.6
Factors involved in native self-assembly processes
52
3.7
'Mimicking nature'
53
3.8
Examples of protein-based fibers produced
55
through artificial spinning technologies
3.9
Wet-spinning of fibrous proteins
55
3.10
Electrospinning of fibrous proteins
60
3.11
Applications
65
3.12
Future trends and conclusions
65
3.13
References
66
4
Biomimetic principles of spider silk for
74
high-performance fibres
C. HOLLAND and
F. VOLLRATH,
University of Oxford, UK
4.1
Introduction
74
4.2
Unravelling structure-function relationships
77
4.3
Spider and worm spinning in vivo
81
4.4
Spinning in vitro
84
4.5
Future trends and applications
86
4.6
Conclusions
87
4.7
Sources of further information and advice
87
4.8
Acknowledgements
88
4.9
References
88
5
A biomimetic approach to the production of
95
sustainable structural composites using plant
fibres
C. SANTULLI,
University of Reading, UK
5.1
Biomimetic design of composite materials
95
5.2
Characteristics of biological materials in
biocomposites
97
Contents
vii
5.3
Fibre extraction,
fibre treatment
and matrix
99
compatibility in
a biomimetic composite
5.4
Approaches to the realisation of plant fibre composites
101
5.5
Conclusions: plant fibre selection for composites
108
reinforcement
5.6
References
109
Part II Biomimetic applications in textiles
6
Biomimetic principles in clothing technology
117
V. KAPSALI and P.
DUNAMORE,
London College of
Fashion, UK
6.1
Introduction
117
6.2
The technology of clothing
118
6.3
Overview of biomimetic design and development
122
6.4
Biomimetic principles and the clothing industry
126
6.5
Key issues
133
6.6
Future trends
133
6.7
Conclusions
134
6.8
Sources of further information and advice
135
6.9
Acknowledgements
135
6.10
References
135
7
Self-cleaning textiles using the Lotus Effect
137
T. STEGMAIER, V.
VON ARNIM,
A. SCHERRIEBLE
and
Η.
PLANCK, Institute of Textile Technology and
Process Engineering
Denkendorf (ITV),
Germany
7.1
Introduction: basics of self-cleaning textiles
137
7.2
Learning from the Lotus Effect: superhydrophobicity
138
and self-cleaning
7.3
Measuring techniques for the characteristic
142
Lotus Effect properties
7.4
Technical transfer
143
7.5
Applications
145
7.6
Future trends
148
7.7
Sources of further information and advice
148
7.8
References
149
viii Contents
8
Analysing the thermal properties of
150
animal furs for the production of artificial furs
L.
HES,
Technical University of
Liberec,
Czech Republic
8.1
Introduction
150
8.2
Brief survey of the manufacture of artificial furs
151
8.3
Experimental study
152
8.4
Water-vapour permeability of furs
164
8.5
Conclusions
166
8.6
References
167
9
The role of plant stems in providing biomimetic
168
solutions for innovative textiles in composites
M. M1LWICH and H. PLANCK, Institute of Textile Technology
and Process Engineering,
Denkendorf (ITV),
Germany;
T. SPECK and O. SPECK, Universitaet Freiburg, Germany
9.1
Introduction
168
9.2
Composites under development:'smart composites'
172
9.3
Using biomimetics to boost the performance of composites
173
9.4
Learning from a role model: horsetail (Equisetum hyemale)
175
9.5
Learning from a role model: giant reed (Arundo donax)
179
9.6
Learning from a role model: wood
182
9.7
Combination of different principles of role models into
183
the 'technical plant stem'
9.8
Production methods and machinery equipment for the
183
'technical plant stem'
9.9
Applications of the 'technical plant stem'
188
9.10
Conclusions and future trends
189
9.11
Acknowledgement
190
9.12
References
190
10
Bionic
developments based on textile materials
193
for technical applications
T. STEGMAIER, V.
VON ARNIM,
M.
LINKE,
M.
MILWICH,
J. SARSOUR,
A. SCHERRIEBLE, P.
SCHNEIDER
and
H.
PLANCK, Institute of Textile Technology and Process
Engineering
Denkendorf (ITV),
Germany
10.1
Introduction
193
10.2
Potential of fiber-based materials in bionics
194
10.3
Research activities in the field of surfaces
195
Contents
¡χ
10.4 Research
activities in environmental technology
196
10.5
Research activities in energy technology/management
203
10.6
Research activities in the field of lightweight constraction
209
10.7
Future trends
210
10.8
Conclusions
210
10.9
Sources of further information and advice
211
10.10
Acknowledgements
211
10.11
References
211
Index
213 |
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| illustrated | Illustrated |
| index_date | 2024-07-02T21:46:37Z |
| indexdate | 2024-07-09T21:20:24Z |
| institution | BVB |
| isbn | 9781845692476 9781845695088 9781420079852 |
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| series2 | Woodhead publishing in textiles |
| spelling | Biologically inspired textiles ed. by A. Abbott ... 1. publ. Boca Raton [u.a.] CRC Press [u.a.] 2008 XXI, 219 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Woodhead publishing in textiles 77 Biomimetics Materials Materials Biotechnology Textile fabrics Technological innovations Stoff Textilien (DE-588)4135786-3 gnd rswk-swf Biomimetikum (DE-588)4589414-0 gnd rswk-swf Biomimetikum (DE-588)4589414-0 s Stoff Textilien (DE-588)4135786-3 s DE-604 Abbott, Albert Sonstige oth Woodhead publishing in textiles 77 (DE-604)BV023669677 77 Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016690999&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Biologically inspired textiles Woodhead publishing in textiles Biomimetics Materials Materials Biotechnology Textile fabrics Technological innovations Stoff Textilien (DE-588)4135786-3 gnd Biomimetikum (DE-588)4589414-0 gnd |
| subject_GND | (DE-588)4135786-3 (DE-588)4589414-0 |
| title | Biologically inspired textiles |
| title_auth | Biologically inspired textiles |
| title_exact_search | Biologically inspired textiles |
| title_exact_search_txtP | Biologically inspired textiles |
| title_full | Biologically inspired textiles ed. by A. Abbott ... |
| title_fullStr | Biologically inspired textiles ed. by A. Abbott ... |
| title_full_unstemmed | Biologically inspired textiles ed. by A. Abbott ... |
| title_short | Biologically inspired textiles |
| title_sort | biologically inspired textiles |
| topic | Biomimetics Materials Materials Biotechnology Textile fabrics Technological innovations Stoff Textilien (DE-588)4135786-3 gnd Biomimetikum (DE-588)4589414-0 gnd |
| topic_facet | Biomimetics Materials Materials Biotechnology Textile fabrics Technological innovations Stoff Textilien Biomimetikum |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016690999&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV023669677 |
| work_keys_str_mv | AT abbottalbert biologicallyinspiredtextiles |