| Nome |
# |
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Recent Advancements in Rubber Nanocomposites., file e0c31c08-335d-4599-e053-1705fe0aef77
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525
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Nanometric high aspect ratio fillers and chemical reactivity with the polymer matrix, file e0c31c0e-d4a9-4599-e053-1705fe0aef77
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373
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Master curves for the sulphur assisted crosslinking reaction of natural rubber in the presence of nano- and nano-structured sp2 carbon allotropes, file e0c31c0b-5d44-4599-e053-1705fe0aef77
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330
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Crosslinking of poly(1,4-cis-isoprene) from Hevea and Guayule, file e0c31c09-eadc-4599-e053-1705fe0aef77
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257
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Multifunctional use of ionic liquids in natural rubber based compounds, file e0c31c0e-2809-4599-e053-1705fe0aef77
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236
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Interactive effects between carbon allotrope fillers on the mechanical reinforcement of polyisoprene based nanocomposites, file e0c31c09-f553-4599-e053-1705fe0aef77
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191
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Serinol: a biosourced building block for better mechanical reinforcement and sustainable vulcanization of rubber compounds, file e0c31c0b-5d13-4599-e053-1705fe0aef77
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157
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Sepiolite for rubber nanocomposites with high mechanical reinforcement and low dissipation of energy, file e0c31c0e-88f6-4599-e053-1705fe0aef77
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136
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Chemical modification of Sepiolite for Rubber Composites With Improved Mechanical Properties, file e0c31c0f-1ef2-4599-e053-1705fe0aef77
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109
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Serinol: a biosourced building block for better mechanical reinforcement and sustainable vulcanization of rubber compounds, file e0c31c0b-98de-4599-e053-1705fe0aef77
|
85
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Biobased materials for advanced rubber composites, file e0c31c0f-0dbb-4599-e053-1705fe0aef77
|
67
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Chemical modification of Sepiolite for Rubber Composites With Improved Mechanical Properties, file e0c31c0f-1ef3-4599-e053-1705fe0aef77
|
66
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Filler networking of a nanographite with a high shape anisotropy and synergism with carbon black in poly(1,4-cis-isoprene) based nanocomposites, file e0c31c09-eae1-4599-e053-1705fe0aef77
|
63
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Sustainable materials for tyres. 3. Biobased secondary accelerators for silica based compounds, file e0c31c0e-d9f7-4599-e053-1705fe0aef77
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63
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Delamination of organically modified montmorillonite for reducing the filler networking with carbon black in poly(1,4-cis-isoprene) based nanocomposites, file e0c31c0e-043e-4599-e053-1705fe0aef77
|
45
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Elastomeric composition and vulcanization accelerator used therein, file e0c31c0b-7857-4599-e053-1705fe0aef77
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43
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Elastomeric Compositions Comprising Silicate Fibres With Needle-Shaped Morphology Of Nanometric Size And Tyres For Vehicles That Comprise Them, file e0c31c0c-7216-4599-e053-1705fe0aef77
|
42
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Organoclays with hexagonal rotator order for the paraffinic chains of the compensating cation. Implications on the structure of clay polymer nanocomposites, file e0c31c0d-ca1f-4599-e053-1705fe0aef77
|
36
|
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Sustainable materials for tyres. 3. Biobased secondary accelerators for silica based compounds, file e0c31c0e-d9f8-4599-e053-1705fe0aef77
|
31
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Nanometric high aspect ratio fillers and chemical reactivity with the polymer matrix, file e0c31c0e-d4a8-4599-e053-1705fe0aef77
|
28
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Reduction of filler networking in silica based elastomeric nanocomposites with exfoliated organo-montmorillonite, file e0c31c11-12ff-4599-e053-1705fe0aef77
|
27
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Delaminated and intercalated organically modified montmorillonite in poly(1,4-cis-isoprene) matrix. Indications of counterintuitive dynamic-mechanical behaviour, file e0c31c0d-f0f6-4599-e053-1705fe0aef77
|
23
|
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Sustainable materials for tyres. 2. High aspect ratio natural fillers for rubber compounds with low dissipation of energy, file e0c31c0e-d9f2-4599-e053-1705fe0aef77
|
22
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Nanometric high aspect ratio fillers and chemical reactivity with the polymer matrix, file e0c31c0e-d4ae-4599-e053-1705fe0aef77
|
20
|
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Biobased materials for advanced rubber composites, file e0c31c0f-0dbc-4599-e053-1705fe0aef77
|
11
|
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BIOSOURCED CHEMICALS
FOR RUBBER COMPOSITES, file e0c31c09-6619-4599-e053-1705fe0aef77
|
7
|
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MATERIALS FROM RENEWABLE SOURCES FOR ADVANCED RUBBER COMPOSITES, file e0c31c09-7262-4599-e053-1705fe0aef77
|
7
|
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New frontiers for rubber: Nanocomposites and Renewable Sources, file e0c31c08-33d4-4599-e053-1705fe0aef77
|
6
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Innovative biosourced compatibilizers for carbon and white fillers in rubber compounds, file e0c31c08-33da-4599-e053-1705fe0aef77
|
6
|
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MATERIALS FROM RENEWABLE SOURCES FOR ADVANCED RUBBER COMPOSITES, file e0c31c09-a1f3-4599-e053-1705fe0aef77
|
6
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Natural rubber from alternative sources. The key role of low molecular mass components, file e0c31c08-33db-4599-e053-1705fe0aef77
|
5
|
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Serinol derivatives for the sustainable vulcanization of diene elastomers, file e0c31c10-5079-4599-e053-1705fe0aef77
|
5
|
|
Reduction of filler networking in silica based elastomeric nanocomposites with exfoliated organo-montmorillonite, file e0c31c10-ec9a-4599-e053-1705fe0aef77
|
5
|
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Applicazione di CNT in matrici elastomeriche, file e0c31c08-145d-4599-e053-1705fe0aef77
|
4
|
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Nanocompositi elastomerici a base di nanocariche carboniose, file e0c31c08-33d5-4599-e053-1705fe0aef77
|
4
|
|
Delamination of organically modified montmorillonite for reducing the filler networking with carbon black in poly(1,4-cis-isoprene) based nanocomposites, file e0c31c09-5d8b-4599-e053-1705fe0aef77
|
4
|
|
Control of organoclay structure in hydrocarbon polymers, file e0c31c07-ed7e-4599-e053-1705fe0aef77
|
3
|
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Controllo della struttura di un “organoclay” all’interno di polimeri idrocarburici, file e0c31c07-f7cb-4599-e053-1705fe0aef77
|
3
|
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Layered nanofillers for rubbers, file e0c31c08-03eb-4599-e053-1705fe0aef77
|
3
|
|
The role of nanofillers in promoting hybrid filler networking and synergism with carbon black, file e0c31c08-03ec-4599-e053-1705fe0aef77
|
3
|
|
Applicazione di CNT in matrici elastomeriche, file e0c31c08-145e-4599-e053-1705fe0aef77
|
3
|
|
Recent advancements in rubber nanocomposites, file e0c31c08-1465-4599-e053-1705fe0aef77
|
3
|
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Recent advancements in rubber nanocomposites, file e0c31c08-1466-4599-e053-1705fe0aef77
|
3
|
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A Rubber Vision of High Aspect Ratio Nanofillers, file e0c31c08-16ce-4599-e053-1705fe0aef77
|
3
|
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A Rubber Vision of High Aspect Ratio Nanofillers, file e0c31c08-16cf-4599-e053-1705fe0aef77
|
3
|
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Renewable sources for rubber nanocomposites, file e0c31c08-34df-4599-e053-1705fe0aef77
|
3
|
|
Multifunctional use of ionic liquids in natural rubber based compounds, file e0c31c09-6e7c-4599-e053-1705fe0aef77
|
3
|
|
MATERIALS FROM RENEWABLE SOURCES FOR ADVANCED RUBBER COMPOSITES, file e0c31c09-6f9b-4599-e053-1705fe0aef77
|
3
|
|
Materiali elastomerici per componenti di pneumatici e pneumatici comprendenti fibre di silicati modificate, file e0c31c09-efa3-4599-e053-1705fe0aef77
|
3
|
|
Serinol derivatives for the sustainable vulcanization of diene elastomers, file e0c31c0f-2c5d-4599-e053-1705fe0aef77
|
3
|
|
Nano and nanostructured fillers and their synergistic behavior in rubber composites such as tyres, file e0c31c07-ec92-4599-e053-1705fe0aef77
|
2
|
|
Preparation and Structure of Nanofillers for Rubber Composites, file e0c31c08-0007-4599-e053-1705fe0aef77
|
2
|
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Applications of Clay Polymer Nanocomposites, file e0c31c08-145c-4599-e053-1705fe0aef77
|
2
|
|
Graphite Intercalate Compounds as Possible Nanoscale Modifiers, file e0c31c08-16d2-4599-e053-1705fe0aef77
|
2
|
|
A COMPARATIVE STUDY OF THE SYNERGISTIC EFFECTS BETWEEN NANOFILLERS AND CARBON BLACK IN THE MECHANICAL REINFORCEMENT OF A HYDROCARBON POLYMER MATRIX, file e0c31c08-18c1-4599-e053-1705fe0aef77
|
2
|
|
Organoclays with hexagonal rotator order for the paraffinic chains of the compensating cation. Implications on the structure of clay polymer nanocomposites, file e0c31c08-1952-4599-e053-1705fe0aef77
|
2
|
|
Graphite and Graphite Derivatives with High Shape Anisotropy for Polymer Nanocomposites, file e0c31c08-1fa8-4599-e053-1705fe0aef77
|
2
|
|
Delaminated and intercalated organically modified montmorillonite in poly(1,4-cis-isoprene) matrix. Indications of counterintuitive dynamic-mechanical behaviour, file e0c31c08-335c-4599-e053-1705fe0aef77
|
2
|
|
Organomontmorillonite per il controllo del filler networking in nanocompositi elastomerici a base di silice, file e0c31c08-33d7-4599-e053-1705fe0aef77
|
2
|
|
Ordine pseudoesagonale per le catene paraffiniche del catione ammonio intercalato in un clay. Implicazioni su struttura e proprietà di nanocompositi polimerici, file e0c31c08-33d9-4599-e053-1705fe0aef77
|
2
|
|
Carbon Allotropes for Nanocomposites Based on poly(1,4-cis-isoprene), file e0c31c09-efdf-4599-e053-1705fe0aef77
|
2
|
|
Filler networks in matrici polimeriche idrocarburiche a base di silicati a strati organicamente modificati, file e0c31c07-ed74-4599-e053-1705fe0aef77
|
1
|
|
Organoclay structure control, file e0c31c07-ed7f-4599-e053-1705fe0aef77
|
1
|
|
A Comparative study of nanofillers effects in rubber composites, file e0c31c07-f7c7-4599-e053-1705fe0aef77
|
1
|
|
Nanofillers for Rubbers, file e0c31c07-f7ca-4599-e053-1705fe0aef77
|
1
|
|
Rubber–clay nanocomposites. From nanostructures to material properties, file e0c31c07-f7ce-4599-e053-1705fe0aef77
|
1
|
|
Rubber clay nanocomposites, file e0c31c07-f7cf-4599-e053-1705fe0aef77
|
1
|
|
Clay Nanocomposites in Hydrocarbon Polymers: from nanostructures to material properties, file e0c31c07-f7d0-4599-e053-1705fe0aef77
|
1
|
|
Nanocomposites of Poly(1,4-cis-Isoprene) with Graphite Oxide Intercalation Compounds, file e0c31c08-144f-4599-e053-1705fe0aef77
|
1
|
|
Innovative polymer nanocomposites with clay and graphite intercalate compounds, file e0c31c08-145f-4599-e053-1705fe0aef77
|
1
|
|
Exfoliation of Graphite with High Shape Anisotropy in Poly(1,4-cis-isoprene), file e0c31c08-1463-4599-e053-1705fe0aef77
|
1
|
|
Syndiotactic Polystyrene Aerogels Containing Reduced Graphite Oxide and Graphite Oxide intercalation Compounds, file e0c31c08-1464-4599-e053-1705fe0aef77
|
1
|
|
Recent advancements in rubber nanocomposites, file e0c31c08-1467-4599-e053-1705fe0aef77
|
1
|
|
Organoclays with hexagonal rotator order for the paraffinic chains of the compensating cation. Implications on the structure of clay polymer nanocomposites, file e0c31c08-14c9-4599-e053-1705fe0aef77
|
1
|
|
Organoclays with hexagonal rotator order for the paraffinic chains of the compensating cation. Implications on the structure of clay polymer nanocomposites, file e0c31c08-14ca-4599-e053-1705fe0aef77
|
1
|
|
Graphite Intercalate Compounds as Possible Nanoscale Modifiers, file e0c31c08-16d0-4599-e053-1705fe0aef77
|
1
|
|
Functionalized carbon nanofillers for hydrocarbon polymers, file e0c31c08-16d7-4599-e053-1705fe0aef77
|
1
|
|
Graphite and Graphite Derivatives with High Shape Anisotropy for Polymer Nanocomposites, file e0c31c08-1fa9-4599-e053-1705fe0aef77
|
1
|
|
Graphite Oxide Intercalation Compounds in Hydrocarbon Polymer, file e0c31c08-1faa-4599-e053-1705fe0aef77
|
1
|
|
Organomontmorillonite per il controllo del filler networking in nanocompositi elastomerici a base di silice, file e0c31c08-34d0-4599-e053-1705fe0aef77
|
1
|
|
Mechanical reinforcement promoted by hybrid nanofillers in polyisoprene rubber, file e0c31c08-34d6-4599-e053-1705fe0aef77
|
1
|
|
BIOSOURCED CHEMICALS
FOR RUBBER COMPOSITES, file e0c31c09-63ba-4599-e053-1705fe0aef77
|
1
|
|
Ordine pseudoesagonale per le catene paraffiniche del catione ammonio intercalato in un clay. Implicazioni su struttura e proprietà di nanocompositi polimerici, file e0c31c09-6a82-4599-e053-1705fe0aef77
|
1
|
|
Composizione elastomerica ed accelerante per vulcanizzazione impiegato nella stessa., file e0c31c09-e9c6-4599-e053-1705fe0aef77
|
1
|
|
Materiali elastomerici per componenti di pneumatici e pneumatici comprendenti fibre di silicati modificate, file e0c31c09-eaf3-4599-e053-1705fe0aef77
|
1
|
|
Materiali elastomerici per componenti di pneumatici e pneumatici comprendenti fibre di silicati modificate, file e0c31c09-f0e5-4599-e053-1705fe0aef77
|
1
|
| Totale |
3.134 |