X
Search Filters
Format Format
Format Format
X
Sort by Item Count (A-Z)
Filter by Count
Journal Article (1569) 1569
Patent (927) 927
Book Chapter (121) 121
Publication (77) 77
Newspaper Article (74) 74
Magazine Article (73) 73
Book / eBook (40) 40
Conference Proceeding (28) 28
Book Review (13) 13
Newsletter (13) 13
Trade Publication Article (11) 11
Reference (6) 6
Web Resource (1) 1
more...
Subjects Subjects
Subjects Subjects
X
Sort by Item Count (A-Z)
Filter by Count
ceramics (1577) 1577
chemistry (1177) 1177
metallurgy (948) 948
concrete (922) 922
refractories (921) 921
cements (914) 914
slag (914) 914
artificial stone (907) 907
compositions thereof, e.g. mortars, concrete or like buildingmaterials (907) 907
lime, magnesia (907) 907
treatment of natural stone (907) 907
inorganic chemistry (643) 643
compounds thereof (543) 543
non-metallic elements (543) 543
ceramics, glass, composites, natural methods (529) 529
transporting (515) 515
performing operations (514) 514
metallic materials (493) 493
materials science, multidisciplinary (491) 491
characterization and evaluation of materials (474) 474
material science (384) 384
general tagging of cross-sectional technologies spanning over several sections of the ipc (373) 373
general tagging of new technological developments (373) 373
materials science (373) 373
technical subjects covered by former uspc cross-reference art collections [xracs] and digests (373) 373
porosity (371) 371
surfaces and interfaces, thin films (354) 354
materials science, ceramics (344) 344
polymer sciences (342) 342
metallurgy & metallurgical engineering (293) 293
engineering, biomedical (289) 289
materials science, biomaterials (282) 282
biomaterials (279) 279
index medicus (265) 265
powder metallurgy (258) 258
technical subjects covered by former uspc (249) 249
casting (248) 248
physical or chemical processes or apparatus in general (246) 246
analysis (233) 233
technical subjects covered by former us classification (227) 227
mechanical properties (221) 221
mechanical engineering (216) 216
chemical or physical processes, e.g. catalysis or colloidchemistry (211) 211
making metallic powder (211) 211
manufacture of articles from metallic powder (211) 211
their relevant apparatus (211) 211
working metallic powder (211) 211
biomedical materials (206) 206
technologies or applications for mitigation or adaptation againstclimate change (205) 205
mechanical-properties (197) 197
ceramic materials (191) 191
foams (187) 187
microstructure (186) 186
glass (181) 181
heating (180) 180
nanotechnology (179) 179
compositions based thereon (177) 177
organic macromolecular compounds (177) 177
their preparation or chemical working-up (177) 177
physical chemistry (171) 171
blasting (170) 170
lighting (169) 169
weapons (169) 169
alloys (166) 166
tissue engineering (163) 163
materials science, general (160) 160
electricity (150) 150
separation (145) 145
after-treatment not covered by subclasses c08b, c08c, c08f,c08g (141) 141
general processes of compounding (141) 141
working-up (141) 141
materials testing (140) 140
basic electric elements (139) 139
behavior (133) 133
ceramics, glass, composites, natural materials (133) 133
animals (129) 129
sintering (128) 128
reduction of greenhouse gas [ghg] emissions, related to energygeneration, transmission or distribution (125) 125
polymers (123) 123
fabrication (121) 121
working of plastics (120) 120
working of substances in a plastic state, in general (120) 120
after-treatment of the shaped products, e.g. repairing (117) 117
aluminum oxide (117) 117
scaffolds (117) 117
shaping of material in a plastic state, not otherwise providedfor (117) 117
shaping or joining of plastics (117) 117
humans (114) 114
composites (111) 111
chemical surface treatment (109) 109
coating by vacuum evaporation, by sputtering, by ion implantationor by chemical vapour deposition, in general (109) 109
coating material with metallic material (109) 109
coating metallic material (109) 109
diffusion treatment of metallic material (109) 109
inhibiting corrosion of metallic material or incrustation ingeneral (109) 109
composite materials (108) 108
compressive strength (108) 108
coating by vacuum evaporation, by sputtering, by ionimplantation or by chemical vapour deposition, in general (107) 107
powders (107) 107
surface treatment of metallic material by diffusion into thesurface, by chemical conversion or substitution (107) 107
more...
Library Location Library Location
Language Language
Language Language
X
Sort by Item Count (A-Z)
Filter by Count
English (2776) 2776
French (252) 252
German (146) 146
Chinese (68) 68
Korean (24) 24
Japanese (21) 21
Norwegian (9) 9
Russian (9) 9
Spanish (7) 7
Danish (4) 4
Finnish (2) 2
Portuguese (2) 2
Ukrainian (2) 2
more...
Publication Date Publication Date
Click on a bar to filter by decade
Slide to change publication date range


Industrial & Engineering Chemistry Research, ISSN 0888-5885, 11/2005, Volume 44, Issue 24, pp. 9078 - 9085
Gas−solid heat transfer coefficients were determined in open-celled metal foams as part of a study aimed at evaluating the application of metal foams as... 
ENGINEERING, CHEMICAL | CERAMIC FOAM | PRESSURE-DROP
Journal Article
Materials Science & Engineering A, ISSN 0921-5093, 2008, Volume 496, Issue 1, pp. 501 - 506
A general method for brazing ceramics to metals using a compliant metallic foam as a buffer layer has been developed. Using stainless steel foams, bonds... 
Brazing | Metal–ceramic bonds | Metallic foam | Thermal cycling | Metal-ceramic bonds | INTERLAYER | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | NANOSCIENCE & NANOTECHNOLOGY | Degassing of metals | Metallurgy | Ceramics | Ceramic materials
Journal Article
Chemical Engineering Journal, ISSN 1385-8947, 08/2012, Volume 198-199, pp. 512 - 528
► Heat transfer characteristics of open-cell metal foams were assessed. ► FeCrAlY and Al foams, 5–11% relative density and 10–40PPI, were tested. ► Conduction... 
Sponges | Process intensification | Metallic foams | Effective radial conductivity | Heat transfer | Catalyst support | TRANSPORT-PROPERTIES | FORCED-CONVECTION | SUPPORTS | MODEL | RADIATION | FLOW-THROUGH | ENGINEERING, CHEMICAL | FLUID | ENGINEERING, ENVIRONMENTAL | CONDUCTIVITY | CERAMIC SPONGES | MASS-TRANSFER | Analysis | Porosity | Foams | Foamed metals | Aluminum | Conductivity | Estimates | Walls
Journal Article
Advanced Engineering Materials, ISSN 1438-1656, 04/2008, Volume 10, Issue 4, pp. 352 - 360
Two metallic foams exhibiting a similar porosity but different cell sizes have been characterized using X‐ray tomography. The images have been processed and... 
Cellular materials | X‐ray tomography | HEAT-TRANSFER | MATERIALS SCIENCE, MULTIDISCIPLINARY | INSULATION | IDENTIFICATION | SCATTERING | PREDICTION | CERAMICS | Engineering Sciences | Materials
Journal Article
Journal of Quantitative Spectroscopy and Radiative Transfer, ISSN 0022-4073, 10/2017, Volume 200, pp. 59 - 69
•Pore-level characteristics of surface temperature are investigated using realistic foam structures.•Surface temperature is simulated through a Backward Monte... 
Backward Monte Carlo method | Surface temperature | Radiative transfer | Metallic foam | Computed tomography | Pore-level | THERMAL TRANSPORT | PERFORMANCE | FLOW | PREDICTION | OPEN CELLS | SPECTROSCOPY | MONTE-CARLO DETERMINATION | POROUS CERAMICS | MEDIA | RADIATION HEAT-TRANSFER | SOLAR AIR RECEIVER | OPTICS | Monte Carlo method | Analysis | CT imaging
Journal Article
Microporous and Mesoporous Materials, ISSN 1387-1811, 2011, Volume 140, Issue 1, pp. 81 - 88
Journal Article
Journal of the American Ceramic Society, ISSN 0002-7820, 10/2006, Volume 89, Issue 10, pp. 3101 - 3106
Closed cell ferrous foams were fabricated using a chemically bonded oxide ceramic foam precursor. The major constituent of the ceramic foam precursor was iron... 
STEEL FOAM | MATERIALS SCIENCE, CERAMICS | MAGNESIA-PHOSPHATE CEMENT | Foams | Foamed metals | Precursors | Oxides | Compressive strength | Ceramics | Steels | Density
Journal Article
International Journal of Thermal Sciences, ISSN 1290-0729, 06/2015, Volume 92, pp. 179 - 187
This paper presents temperature dependent thermal diffusivity measurements of NiCrAl and mullite foam solid skeletons. The photoreflectance microscopy (PM)... 
NiCrAl foam | Thermal diffusivity | Mullite foam | Photoreflectance microscopy technique | Solid phase | THERMODYNAMICS | HEAT-TRANSFER | CONDUCTIVITY | RADIATIVE PROPERTIES | SILICON-CARBIDE | ENGINEERING, MECHANICAL | Foams | Foamed metals | Microscopy | Mullite | Ceramics | Brittleness
Journal Article
Iranian Polymer Journal, ISSN 1026-1265, 7/2016, Volume 25, Issue 7, pp. 579 - 587
Two kinds of nano-metallic oxides (nano-Al2O3 and nano-ZrO2) were introduced separately into phenolic (PF) foams, and a series of PF foams modified with... 
Polymer Sciences | Mechanical strengths | Chemistry | Nano-metallic oxides | Friability | Ceramics, Glass, Composites, Natural Methods | Phenolic foams | TRIBOLOGICAL PROPERTIES | RESIN | POLYMER SCIENCE | PERFORMANCE | COMPOSITES | NANOPARTICLES | NANOCOMPOSITES | THERMAL-PROPERTIES | REINFORCEMENT | SYNTACTIC FOAMS | MICROSTRUCTURE
Journal Article
Industrial & Engineering Chemistry Research, ISSN 0888-5885, 06/2007, Volume 46, Issue 12, pp. 3955 - 3958
A previous investigation of gas/solid mass transfer in metallic foams with high void fractions has been extended to ceramic foams with higher relative... 
OXIDATION | ENGINEERING, CHEMICAL | HEAT-TRANSFER | CATALYSTS | SUPPORTS
Journal Article
Journal of Materials Chemistry, ISSN 0959-9428, 12/2011, Volume 22, Issue 3, pp. 82 - 823
We present a method to prepare metallic foams with a unique architecture of small pores and thin struts using wet foams and emulsions stabilized by metallic... 
POROUS MATERIALS | MACROPOROUS CERAMICS | ALLOYS | NANOPOROUS AU | BEHAVIOR | MATERIALS SCIENCE, MULTIDISCIPLINARY | COLLOIDAL PARTICLES | CHEMISTRY, PHYSICAL | AMPHIPHILES | Nanoparticles | Foamed metals | Emulsions | Nanocomposites | Nanomaterials | Struts | Nanostructure | Porosity
Journal Article
Journal Article
Journal of Alloys and Compounds, ISSN 0925-8388, 12/2016, Volume 687, pp. 839 - 844
Open cell Ti6Al4V metallic foams were fabricated by gelcasting and subsequent sintering. Foaming was conducted in an aqueous environment by using a protein and... 
Gelcasting | Metallic foams | Biopolymers | Ti6Al4V | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | POROUS CERAMICS | CHEMISTRY, PHYSICAL | COMPRESSION | TITANIUM | MICROSTRUCTURE | Albumin | Sintering | Porosity | Metal powders | Metal powder products | Surface active agents
Journal Article