Steel fibre reinforced concrete:
Gespeichert in:
1. Verfasser: | |
---|---|
Format: | Buch |
Sprache: | German English |
Veröffentlicht: |
Berlin
Ernst
1995
|
Schlagworte: | |
Online-Zugang: | Inhaltsverzeichnis |
Beschreibung: | Dt. Ausg. u.d.T.: Maidl, Bernhard: Stahlfaserbeton |
Beschreibung: | XVII, 292 S. Ill., graph. Darst. |
ISBN: | 3433012881 |
Internformat
MARC
LEADER | 00000nam a2200000 c 4500 | ||
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001 | BV010107702 | ||
003 | DE-604 | ||
005 | 19960116 | ||
007 | t | ||
008 | 950313s1995 gw ad|| |||| 00||| ger d | ||
016 | 7 | |a 943748429 |2 DE-101 | |
020 | |a 3433012881 |c Pp. : DM 158.00, sfr 150.00, S 1232.00 |9 3-433-01288-1 | ||
035 | |a (OCoLC)33151727 | ||
035 | |a (DE-599)BVBBV010107702 | ||
040 | |a DE-604 |b ger |e rakddb | ||
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049 | |a DE-91 |a DE-210 |a DE-83 |a DE-525 | ||
050 | 0 | |a TA445 | |
084 | |a BAU 383f |2 stub | ||
100 | 1 | |a Maidl, Bernhard |d 1938- |e Verfasser |0 (DE-588)119060000 |4 aut | |
240 | 1 | 0 | |a Stahlfaserbeton |
245 | 1 | 0 | |a Steel fibre reinforced concrete |c Bernhard R. Maidl |
264 | 1 | |a Berlin |b Ernst |c 1995 | |
300 | |a XVII, 292 S. |b Ill., graph. Darst. | ||
336 | |b txt |2 rdacontent | ||
337 | |b n |2 rdamedia | ||
338 | |b nc |2 rdacarrier | ||
500 | |a Dt. Ausg. u.d.T.: Maidl, Bernhard: Stahlfaserbeton | ||
650 | 7 | |a Béton armé |2 ram | |
650 | 4 | |a Steel reinforced concrete | |
650 | 4 | |a Reinforced concrete | |
650 | 0 | 7 | |a Stahlfaserbeton |0 (DE-588)4210215-7 |2 gnd |9 rswk-swf |
689 | 0 | 0 | |a Stahlfaserbeton |0 (DE-588)4210215-7 |D s |
689 | 0 | |5 DE-604 | |
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943 | 1 | |a oai:aleph.bib-bvb.de:BVB01-006711257 |
Datensatz im Suchindex
_version_ | 1807774012523151360 |
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adam_text |
TABLE
OF
CONTENTS
1
INTRODUCTION
AND
TERMINOLOGY
.
1
2
HISTORICAL
DEVELOPMENT
.
3
3
POSSIBLE
APPLICATIONS
FOR
STEEL
FIBRE
REINFORCED
CONCRETE
.
6
3.1
THE
USE
OF
STEEL
FIBRE
REINFORCED
CONCRETE
IN
TUNNELLING
.
6
3.1.1
STEEL
FIBRE
REINFORCED
SHOTCRETE
.
8
3.1.2
STEEL
FIBRE
REINFORCED
FIBRE
PUMPED
CONCRETE
.
9
3.1.3
PRECAST
TUBBINGS
.
10
3.2
THE
USE
OF
STEEL
FIBRE
REINFORCED
CONCRETE
IN
MINING
.
10
3.3
THE
USE
OF
STEEL
FIBRE
REINFORCED
CONCRETE
IN
GENERAL
CIVIL
ENGINEERING
APPLICATIONS
.
11
3.3.1
BUILDING
CONSTRUCTION
AND
PRECAST
MEMBERS
.
11
3.3.2
TRANSPORT
TRACKS
AND
INDUSTRIAL
FLOOR
SLABS
.
12
3.3.3
FOUNDATIONS
UNDER
DYNAMIC
LOAD
.
13
3.3.4
STEEL
FIBRE
REINFORCED
CONCRETE
PIPES
.
14
3.3.5
STABILISATION
OF
BANKS
AND
SLOPES
.
14
3.3.6
HIGH-SECURITY
BUILDINGS
.
15
3.3.7
STEEL
FIBRE
REINFORCED
COMPOSITE
STEEL-CONCRETE
COLUMNS
.
15
3.4
THE
USE
OF
STEEL
FIBRE
REINFORCED
CONCRETE
FOR
THE
REPAIR
AND
STRENGTHENING
WORK
.
16
3.5
OTHER
APPLICATIONS
.
18
4
TYPES
OF
FIBRES
.
19
4.1
STEELFIBRES
.
19
4.1.1
METHODS
OF
MANUFACTURING
STEEL
FIBRES
.
20
4.1.1.1
DRAWING
OF
WIRE
FIBRES
.
20
4.1.1.2
MILLING,
FILING
.
21
4.1.1.3
CUTTING
OR
SLITTING
STEEL
SHEETS
.
21
4.1.1.4
MELT-EXTRACTION
.
22
4.1.2
STRUCTURAL
AND
CONSTRUCTION
TECHNOLOGY
REQUIREMENTS
.
22
4.2
NON-METAL
FIBRES
.
23
4.2.1
ORGANIC
FIBRES
.
24
4.2.1.1
POLYPROPYLENE
FIBRES
.
24
4.2.1.2
POLYVINYL
ALCOHOL
FIBRES
.
24
4.2.1.3
POLYESTER
FIBRES
.
24
4.2.1.4
POLYACRYLONITRILE
FIBRES
.
24
4.2.1.5
POLYARAMIDE
FIBRES
.
25
4.2.1.6
PLANT
FIBRES
.
25
4.2.2
GLASS
FIBRES
.
25
TABLE
OF
CONTENTS
4.2.3
CARBONFIBRES
.
26
4.2.4
CERAMIC
FIBRES
.
26
4.2.5
SILICON
CARBIDE
FIBRES
.
27
4.2.6
ASBESTOS
FIBRES
.
27
4.3
SUMMARY
AND
EVALUATION
.
27
5
CONCRETE
MIXES
.
30
5.1
MIX
DESIGN
.
30
5.2
STEEL
FIBRE
REINFORCED
CAST
CONCRETE
.
31
5.2.1
AGGREGATES
.
31
5.2.2
CEMENT
.
32
5.2.3
FIBRE
CONTENT
.
32
5.2.4
WATER
.
33
5.2.5
ADMIXTURES,
ADDITIVES
.
34
5.2.5.1
PLASTICIZING
ADMIXTURES
.
34
5.2.5.2
FLY
ASH
.
34
5.2.5.3
SILICON-BASED
ADMIXTURES
.
35
5.2.6
EXAMPLES
OF
MIXES
USED
FOR
STEEL
FIBRE
REINFORCED
CONCRETE
.
35
5.3
STEEL
FIBRE
REINFORCED
SHOTCRETE
PLACED
USING
DRY-MIX
SHOTCRETE
.
37
5.3.1
AGGREGATES
.
37
5.3.2
CEMENT
.
38
5.3.3
FIBRE
CONTENT
.
38
5.3.4
WATER
.
38
5.3.5
ADMIXTURES,
ADDITIVES
.
38
5.3.6
EXAMPLE
OF
A
MIX
USED
FOR
STEEL
FIBRE
REINFORCED
SHOTCRETE
PLACED
USING
THE
DRY
MIX
SHOTCRETE
.
39
5.4
STEEL
FIBRE
REINFORCED
SHOTCRETE
PLACED
USING
THE
WET
MIX
SHOTCRETE
.
39
5.4.1
DIFFERENCES
BETWEEN
THE
WET
AND
DRY
SHOTCRETING
PROCESSES
. .
39
5.4.2
EXAMPLE
OF
A
MIX
USED
FOR
STEEL
FIBRE
REINFORCED
SHOTCRETE
PLACED
USING
THE
WET
PROCESS
.
40
6
THE
PROPERTIES
OF
STEEL
FIBRE
REINFORCED
CONCRETE
.
41
6.1
FIBRE
TYPE
.
41
6.1.1
ASPECT
RATIO
(1/D)
.
41
6.1.2
BONDING
PROPERTIES
.
42
6.1.3
HOOKED
ENDS
AND
VARIABLE
FIBRE
DIAMETERS
.
42
6.1.4
FAILURE
MECHANISM
.
42
6.2
FIBRE
CONTENT
.
44
6.3
FIBRE
ORIENTATION
.
45
6.4
MAXIMUM
COARSE
AGGREGATE
.
46
6.5
THE
PROPERTIES
OF
FRESHLY-MIXED
CONCRETE
.
47
6.5.1
WORKABILITY
.
48
6.5.2
COMPACTABILITY
.
49
6.6
THE
PROPERTIES
OF
HARDENED
CONCRETE
.
50
XII
6.6.1
6.6.2
6.6.3
6.6.3.1
6.6.3.2
6.6.3.3
6.6.4
6.6.4.1
6.6.4.2
6.6.5
6.6.6
6.6.7
6.6.8
6.6.9
6.6.10
6.6.10.1
6.6.10.2
6.6.11
6.6.12
7
7.1
7.1.1
7.1.2
7.1.2.1
7.1.2.2
7.1.2.3
7.1.2.4
7.1.2.5
7.2
7.2.1
7.2.2
7.2.2.1
7.2.2.2
7.2.3
7.2.3.1
7.2.3.2
7.2.3.3
7.2.4
7.2.4.1
7.2.4.2
7.2.4.3
ELASTIC
DEFORMATION
.
51
CRACKING
.
51
TENSILE
STRESS
.
52
CENTRIC
TENSILE
STRESS
.
52
FLEXURAL
STRESS
.
55
SPLITTING
STRESS
.
57
COMPRESSIVE
STRESS
.
58
INITIAL
STRENGTH
.
58
HARDENED
CONCRETE
.
59
SHEAR
STRESS
.
60
TOUGHNESS
.
61
IMPACT
RESISTANCE
.
62
HIGH
TEMPERATURES
.
63
SHRINKAGE
AND
CREEP
.
64
CORROSION
.
65
UNDAMAGED
CONCRETE
.
65
DAMAGED
CONCRETE
.
66
RESISTANCE
TO
THE
EFFECTS
OF
WEARING
.
69
BEHAVIOUR
WITH
ELECTROMAGNETIC
WAVES
.
69
MIXING
AND
PLACING
TECHNOLOGY
AND
EQUIPMENT
FOR
THE
MANUFACTURE
OF
STEEL
FIBRE
REINFORCED
CONCRETE
.
70
STEEL
FIBRE
REINFORCED
CAST
CONCRETE
.
.
70
MIXING
.
70
PLACING
.
.
73
FORMWORK
.
73
PUMPING
.
74
EXTRUSION
.
75
COMPACTION
.
77
SPECIAL
FEATURES
OF
INDUSTRIAL
FLOORS
.
.
78
STEEL
FIBRE
REINFORCED
SHOTCRETE
.
80
MIXING
.
80
SPRAYING
TECHNOLOGY
.
.
85
DRY-MIX
SHOTCRETE
.
86
WET
MIX
SHOTCRETE
.
90
NOZZLE
OPERATION
.
92
MANUAL
NOZZLE
OPERATION
.
93
MANIPULATORS
.
93
ROBOTS
.
.
95
NEW
DEVELOPMENTS
.
96
SEC
SHOTCRETE
.
97
HOLZMANN
SLIDING
SHUTTERING
MACHINE
.
98
THE
SLIDING
PRESS
LINING
MACHINE
.
98
XIII
TABLE
OF
CONTENTS
8
QUALITY
ASSURANCE
IN
TUNNELLING
.
100
8.1
GENERAL
OVERVIEW
OF
FUTURE
PROCEDURE
.
100
8.1.1
DEFINITIONS
.
100
8.1.2
THE
NECESSITY
OF
A
QUALITY
ASSURANCE
SYSTEM
.
101
8.1.3
CONSTITUENT
ELEMENTS
OF
A
QUALITY
ASSURANCE
SYSTEM
.
102
8.1.3.1
PLANNING
.
102
8.1.3.2
EXECUTION
.
103
8.1.3.3
TESTING
.
104
8.1.3.4
THE
QUALITY
CIRCLE
.
105
8.2
QUALITY
TESTS
FOR
STEEL
FIBRE
REINFORCED
CONCRETE
.
105
8.2.1
ABILITY
TESTING
.
106
8.2.1.1
STEEL
FIBRE
REINFORCED
CAST
CONCRETE
.
106
8.2.1.2
STEEL
FIBRE
REINFORCED
SHOTCRETE
.
107
8.2.1.3
TESTING
SPECIAL
PROPERTIES
.
108
8.2.2
QUALITY
CONTROL
TEST
.
109
8.2.2.1
STEEL
FIBRE
REINFORCED
CAST
CONCRETE
.
109
8.2.2.2
STEEL
FIBRE
REINFORCED
SHOTCRETE
.
109
8.2.3
THE
INFLUENCE
OF
FIBRE
ORIENTATION
ON
TEST
RESULTS
.
110
8.2.4
TESTS
FOR
FRESHLY-MIXED
CONCRETE
.
.
.
ILL
8.2.4.1
CONSISTENCY
.
ILL
8.2.4.2
OTHER
TESTS
FOR
FRESHLY-MIXED
CONCRETE
.
ILL
8.2.5
TESTS
ON
HARDENED
CONCRETE
.
112
8.2.5.1
MANUFACTURE
AND
STORAGE
OF
SPECIMENS
.
112
8.2.5.2
DETERMINATION
OF
INITIAL
STRENGTH
.
114
8.2.5.3
DETERMINATION
OF
COMPRESSIVE
STRENGTH
.
115
8.2.5.4
DETERMINATION
OF
CENTRED
TENSILE
STRENGTH
.
.
.
.
115
8.2.5.5
DETERMINATION
OF
FLEXURAL
STRENGTH
.
116
8.2.5.6
DETERMINING
SPLITTING
STRENGTH
.
122
8.2.5.7
TESTING
WATERTIGHTNESS
.
123
8.2.5.8
DETERMINATION
OF
THE
MODULUS
OF
STATIC
ELASTICITY
.
124
8.3
PROTECTING
FIBRES
AGAINST
CORROSION
.
124
8.4
CURING
AND
PROTECTION
OF
YOUNG
STEEL
FIBRE
REINFORCED
CONCRETE
.
124
8.5
ADDITIONAL
MEASURES
FOR
GUARANTEEING
QUALITY
IN
THE
MANUFACTURE
OF
STEEL
FIBRE
REINFORCED
SHOTCRETE
.
125
9
CALCULATION
AND
DIMENSIONING
CONCEPTS
.
126
9.1
DESIGN
CONCEPTS
FOR
THE
DETERMINATION
OF
MATERIAL
IDENTIFICATION
.
128
9.1.1
SPACING
CONCEPT
.
128
9.1.2
COMPOSITE
CONCEPT
.
.
.
.
129
9.1.3
RELEVANCE
FOR
PRACTICAL
APPLICATION
.
131
9.2
EXAMPLES
OF
DESIGN
CONCEPTS
.
131
9.2.1
COVERING
SLABS
FOR
CABLE
TRENCHES
.
131
9.2.1.1
CALCULATION
ASSUMPTIONS
.
132
XIV
XV
9.2.1.2
DETERMINING
LOAD-BEARING
CAPACITY
.
.
133
9.2.2
TRACK
AND
FLOOR
SLABS
MANUFACTURED
USING
STEEL
FIBRE
REINFORCED
CONCRETE
.
.
135
9.2.2.1
DETERMINATION
OF
INTERNAL
FORCES
.
.
.
137
9.2.2.2
DIMENSIONING
.
.
140
9.2.3
STEEL
FIBRE
REINFORCED
CONCRETE
PIPES
.
.
141
9.2.3.1
CALCULATION
OF
ULTIMATE
LOAD
.
.
145
9.2.3.2
DIMENSIONING
.
.
146
9.2.4
PROOF
OF
SERVICEABILITY
OF
TUNNEL
SHELLS
.
.
148
9.2.4.1
THE
FLEXURAL
TEST
AS
A
BASIS
FOR
PROOF
.
.
148
9.2.4.2
ASSUMPTION
OF
A
FLEXURAL
MODEL
.
.
149
9.2.4.3
SHELL
CALCULATION
.
.
152
9.2.4.4
PROOF
.
.
154
9.2.5
PROOF
OF
LOAD-BEARING
CAPACITY
OF
TUNNEL
SHELLS
.
.
155
9.2.5.1
DIMENSIONING
CONCEPT
FOR
OUTER
SHELLS
.
.
155
9.2.5.2
DIMENSIONING
CONCEPT
FOR
INNER
SHELLS
.
.
157
9.2.6
PROOF
OF
SINGLE-SHELL
TUNNEL
STRUCTURES
.
.
161
10
STANDARDS,
GUIDELINES
AND
RECOMMENDATIONS
.
.
162
10.1
OVERVIEW
.
.
.
163
10.2
CONTENTS
.
.
.
165
11
CONSTRUCTION-TECHNOLOGY
AND
CONSTRUCTION
OPTIONS
FOR
THE
USE
OF
STEEL
FIBRE
REINFORCED
CONCRETE
IN
TUNNELLING
.
.
.
179
11.1
DOUBLE-SHELL
STRUCTURES
.
.
179
11.1.1
TEMPORARY
STEEL
FIBRE
REINFORCED
SHOTCRETE
SUPPORTS
.
.
181
11.1.2
SPECIAL
FEATURES
OF
URBAN
TUNNELLING
.
.
187
11.1.3
STEEL
FIBRE
REINFORCED
PUMPED
CONCRETE
PERMANENT
SUPPORTS
.
.
189
11.2.
SINGLE
SHELL
STRUCTURES
.
.
.
.
189
11.2.1
GENERAL
PRINCIPLES
.
.
189
11.2.2
SINGLE-SHELL
CONSTRUCTIONS
WITH
STEEL
FIBRE
REINFORCED
PUMPED
CONCRETE
.
.
197
11.2.3
SINGLE
SHELL
STRUCTURES
USING
STEEL
FIBRE
REINFORCED
SHOTCRETE
.
.
201
11.3
EXTRUDED
STEEL
FIBRE
REINFORCED
CONCRETE
.
.
202
11.4
STEEL
FIBRE
REINFORCED
CONCRETE
TUBBINGS
.
.
204
11.4.1
STATICAL
SYSTEM
.
.
.
.
204
11.4.2
MANUFACTURE
.
.
.
205
11.4.3
STORAGE
AND
TRANSPORT
.
.
205
11.4.4
JOINT
FORMATION
.
.
.
205
11.4.5
FORCES
INDUCED
BY
THE
ADVANCE
JACKS
.
.
206
11.4.6
RING-GAP
INJECTION
.
.
.
.
206
11.4.7
MOUNTING
.
206
11.5
REPAIR
OF
TUNNELS
USING
STEEL
FIBRE
REINFORCED
SHOTCRETE
.
.
207
11.5.1
PREREQUISITES
.
.
.
207
TABLE
OF
CONTENTS
11.5.2
DEFINING
THE
SURFACES
IN
NEED
OF
REPAIR
.
208
11.5.3
REPAIR
OPERATIONS
USING
STEEL
FIBRE
REINFORCED
SHOTCRETE
.
209
11.5.4
ABILITY
TEST
AND
QUALITY
CONTROL
.
211
11.5.5
COMPARISON
OF
REPAIR
USING
SHOTCRETE
AND
STEEL
FIBRE
REINFORCED
SHOTCRETE
.
212
12
COSTS
AND
COST-EFFECTIVENESS
.
214
12.1
THE
COST
OF
STEEL
FIBRES
.
214
12.2
TUNNELLING
.
214
12.2.1
COMPARISON
OF
VOLUME
AND
MATERIAL
.
214
12.2.2
COMPARISON
OF
THE
CONSTRUCTION
PHASES
.
218
12.2.3
EFFECTS
ON
CONSTRUCTION
TIME
.
.
.
.
.
218
12.3
BUILDING
.
219
12.4
EXCAVATION
PIT
USING
A
LAGGING
CAP
220
12.5
REPAIR
WORK
.
.
.
224
12.6
INDUSTRIAL
FLOORS
.
228
12.7
TRACK
SLABS
.
230
13
RESEARCH
AND
DEVELOPMENT
.
231
13.1
CONSTRUCTION
TECHNOLOGY
.
231
13.1.1
INFLUENCE
OF
THE
MANUFACTURING
PROCESS
ON
FIBRE
ORIENTATION
.
.
232
13.1.2
AUTOMATION
OF
THE
SHOTCRETING
TECHNIQUE
.
.
.
233
13.2
HARDENED
CONCRETE
PROPERTIES
.
236
13.2.1
COMBINED
LOADING
236
13.2.2
ULTIMATE
LOAD
.
237
13.2.3
DURABILITY
.
239
13.3
CALCULATION
AND
DIMENSIONING
METHODS
240
13.4
QUALITY
ASSURANCE
.
240
14
EXAMPLES
OF
PROJECTS
IMPLEMENTED
USING
STEEL
FIBRE
REINFORCED
CONCRETE
242
14.1
TUNNELLING
.
242
14.1.1
SEWAGE
COLLECTOR
HAMBURG-HARBURG,
GERMANY
.
242
14.1.2
FRANKFURT
SUBWAY,
EXTENSION
SECTION
CL
.
245
14.1.3
BIELEFELD
SUBWAY,
SECTION
2312
247
14.1.4
DORTMUND
SUBWAY,
SECTION
K6A
.
.
249
14.1.5
BRITISH
COLUMBIA
RAILWAY,
USA
.
252
14.1.6
STANFORD
TUNNEL,
USA
.
.
253
14.1.7
SPIRIT
LAKE
TUNNEL,
USA
.
.
.
254
14.2
MINING
AND
UNDERGROUND
CHAMBERS
.
.
.
255
14.2.1
WOHLVERWAHRT-NAMMEN
IRON-ORE
MINE
.
255
14.2.2
UNDERGROUND
STORAGE
SPACE
NEAR
LORCH
.
.
.
257
14.2.2.1
TUNNEL
LININGS
.
257
XVI
14.2.2.2
TRACKS
.
259
14.2.3
PREMIER
MINE,
SOUTH
AFRICA
.
.
.
259
14.3
STRENGTHENING
AND
REPAIR
.
260
14.3.1
LAURENBURG
TUNNEL
.
260
14.3.2
LEMGO
SEWAGE
TREATMENT
PLANT
.
261
14.3.3
WASTE
INCINERATION
PLANT
VIENNA
.
263
14.4
OTHER
EXAMPLES
.
264
14.4.1
UNDERGROUND
GARAGE
BOCHUM
.
264
14.4.2
CONCRETE
TRACKS
AT
FRANKFURT
AIRPORT
.
267
14.4.3
ELECTRICITY
MASTS,
USA
AND
AUSTRALIA
.
267
14.5
OVERVIEW
.
269
REFERENCES
.
274
INDEX
.
287 |
any_adam_object | 1 |
author | Maidl, Bernhard 1938- |
author_GND | (DE-588)119060000 |
author_facet | Maidl, Bernhard 1938- |
author_role | aut |
author_sort | Maidl, Bernhard 1938- |
author_variant | b m bm |
building | Verbundindex |
bvnumber | BV010107702 |
callnumber-first | T - Technology |
callnumber-label | TA445 |
callnumber-raw | TA445 |
callnumber-search | TA445 |
callnumber-sort | TA 3445 |
callnumber-subject | TA - General and Civil Engineering |
classification_tum | BAU 383f |
ctrlnum | (OCoLC)33151727 (DE-599)BVBBV010107702 |
discipline | Bauingenieurwesen |
format | Book |
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id | DE-604.BV010107702 |
illustrated | Illustrated |
indexdate | 2024-08-19T00:34:04Z |
institution | BVB |
isbn | 3433012881 |
language | German English |
oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-006711257 |
oclc_num | 33151727 |
open_access_boolean | |
owner | DE-91 DE-BY-TUM DE-210 DE-83 DE-525 |
owner_facet | DE-91 DE-BY-TUM DE-210 DE-83 DE-525 |
physical | XVII, 292 S. Ill., graph. Darst. |
publishDate | 1995 |
publishDateSearch | 1995 |
publishDateSort | 1995 |
publisher | Ernst |
record_format | marc |
spelling | Maidl, Bernhard 1938- Verfasser (DE-588)119060000 aut Stahlfaserbeton Steel fibre reinforced concrete Bernhard R. Maidl Berlin Ernst 1995 XVII, 292 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Dt. Ausg. u.d.T.: Maidl, Bernhard: Stahlfaserbeton Béton armé ram Steel reinforced concrete Reinforced concrete Stahlfaserbeton (DE-588)4210215-7 gnd rswk-swf Stahlfaserbeton (DE-588)4210215-7 s DE-604 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=006711257&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
spellingShingle | Maidl, Bernhard 1938- Steel fibre reinforced concrete Béton armé ram Steel reinforced concrete Reinforced concrete Stahlfaserbeton (DE-588)4210215-7 gnd |
subject_GND | (DE-588)4210215-7 |
title | Steel fibre reinforced concrete |
title_alt | Stahlfaserbeton |
title_auth | Steel fibre reinforced concrete |
title_exact_search | Steel fibre reinforced concrete |
title_full | Steel fibre reinforced concrete Bernhard R. Maidl |
title_fullStr | Steel fibre reinforced concrete Bernhard R. Maidl |
title_full_unstemmed | Steel fibre reinforced concrete Bernhard R. Maidl |
title_short | Steel fibre reinforced concrete |
title_sort | steel fibre reinforced concrete |
topic | Béton armé ram Steel reinforced concrete Reinforced concrete Stahlfaserbeton (DE-588)4210215-7 gnd |
topic_facet | Béton armé Steel reinforced concrete Reinforced concrete Stahlfaserbeton |
url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=006711257&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
work_keys_str_mv | AT maidlbernhard stahlfaserbeton AT maidlbernhard steelfibrereinforcedconcrete |