THE OXIDATION EFFECT OF REINFORCED MATERIAL WITH RESPECT TO COMPRESSIVE STRENGTH OF STEEL FIBER REINFORCED ALUMINA SPINEL CASTABLE REFRACTORY LAMJ-1
From previous research, the oxidation of carbon steel as reinforced from alumina spinel castable refractory LAMJ-1 matrix takes places in 1150oC with 6 hours holding time. Based on this research finding, it is performed a follow-up research by using steel reinforcing material , tin coated steel a...
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id-itb.:382502019-05-20T10:56:08ZTHE OXIDATION EFFECT OF REINFORCED MATERIAL WITH RESPECT TO COMPRESSIVE STRENGTH OF STEEL FIBER REINFORCED ALUMINA SPINEL CASTABLE REFRACTORY LAMJ-1 Poniman Kosasih, Deny Teknik (Rekayasa, enjinering dan kegiatan berkaitan) Indonesia Theses refractory, corrosion of steel fiber reinforcement alumina spinel castable, alumina spinel, oxidation. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/38250 From previous research, the oxidation of carbon steel as reinforced from alumina spinel castable refractory LAMJ-1 matrix takes places in 1150oC with 6 hours holding time. Based on this research finding, it is performed a follow-up research by using steel reinforcing material , tin coated steel and stainless steels with 5 and 7 hours holding time in temperature 1150oC. The result of residual reinforcing material diameter measurement on samples that is reinforced by carbon steel from firing output on T = 1150oC with 5 and 7 hours holding time show diameter reduction as 7% and 16.6%. For samples reinforced by tin coated steel on 7 hours holding time occurs a reduction as 2.1%. Meanwhile, samples reinforced by 304 austenitic stainless steel is 1.1% and 2.4% 5 and 7 hours holding time, respectively. On sample reinforced by carbon steel took places addition of oxide layer thickness as large 22.2%. For sample reinforced by stainless steel was formed a gap between reinforcing steel and its matrix and occurred gap thickness addition as large 17.4% from 5 to 7 hours holding time. The SEM/EDS characteristics show the Fe weight fraction at oxide-matrix interface area for sample in steel reinforcement with 5 and 7 hours holding time as 47.6% and 67,3%, for sample reinforced by tin coated steel with 7 hours holding time is 64.4%. Meanwhile, sample reinforced by stainless steel, although it has gap between reinfrocing steel and matrix, in matrix area is available Fe content with weight fraction as large 42.5% and 83.6%. The XRD characteristic shows some occured phases on oxide layer for steel reinforced samples (5 hours) are Fe3O4, Fe2O3 and FeAl2O4, (7hours) Fe3O4, Fe2O3, FeAl2O4, and Mg(Fe,Al)2O4, Samples with lead-covered reinforcing steel (7 hours) FeO, Fe3O4, Fe2O3, FeAl2O4 and Mg(Fe,Al)2O4, (7 hours) Fe3O4, Fe2O3, MgCr2O3 and Cr2O3. A reduction in CCS value on steel reinforced samples with 5 and 7 hours holding time is 4.5%. Meanwhile, samples with stainless steel reinforcer took places an increase as 8%. For sample reinforced by tin caoted steel with 7 hours holding time is 25.26 Mpa, there is 12.3% reduction from CCS value of steel reinforced steel with same holding time. text |
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Teknik (Rekayasa, enjinering dan kegiatan berkaitan) Poniman Kosasih, Deny THE OXIDATION EFFECT OF REINFORCED MATERIAL WITH RESPECT TO COMPRESSIVE STRENGTH OF STEEL FIBER REINFORCED ALUMINA SPINEL CASTABLE REFRACTORY LAMJ-1 |
| description |
From previous research, the oxidation of carbon steel as reinforced from alumina
spinel castable refractory LAMJ-1 matrix takes places in 1150oC with 6 hours
holding time. Based on this research finding, it is performed a follow-up research
by using steel reinforcing material , tin coated steel and stainless steels with 5
and 7 hours holding time in temperature 1150oC.
The result of residual reinforcing material diameter measurement on samples that
is reinforced by carbon steel from firing output on T = 1150oC with 5 and 7 hours
holding time show diameter reduction as 7% and 16.6%. For samples reinforced
by tin coated steel on 7 hours holding time occurs a reduction as 2.1%.
Meanwhile, samples reinforced by 304 austenitic stainless steel is 1.1% and 2.4%
5 and 7 hours holding time, respectively. On sample reinforced by carbon steel
took places addition of oxide layer thickness as large 22.2%. For sample
reinforced by stainless steel was formed a gap between reinforcing steel and its
matrix and occurred gap thickness addition as large 17.4% from 5 to 7 hours
holding time.
The SEM/EDS characteristics show the Fe weight fraction at oxide-matrix
interface area for sample in steel reinforcement with 5 and 7 hours holding time
as 47.6% and 67,3%, for sample reinforced by tin coated steel with 7 hours
holding time is 64.4%. Meanwhile, sample reinforced by stainless steel, although
it has gap between reinfrocing steel and matrix, in matrix area is available Fe
content with weight fraction as large 42.5% and 83.6%. The XRD characteristic
shows some occured phases on oxide layer for steel reinforced samples (5 hours)
are Fe3O4, Fe2O3 and FeAl2O4, (7hours) Fe3O4, Fe2O3, FeAl2O4, and
Mg(Fe,Al)2O4, Samples with lead-covered reinforcing steel (7 hours) FeO, Fe3O4,
Fe2O3, FeAl2O4 and Mg(Fe,Al)2O4, (7 hours) Fe3O4, Fe2O3, MgCr2O3 and Cr2O3.
A reduction in CCS value on steel reinforced samples with 5 and 7 hours holding
time is 4.5%. Meanwhile, samples with stainless steel reinforcer took places an
increase as 8%. For sample reinforced by tin caoted steel with 7 hours holding
time is 25.26 Mpa, there is 12.3% reduction from CCS value of steel reinforced
steel with same holding time. |
| format |
Theses |
| author |
Poniman Kosasih, Deny |
| author_facet |
Poniman Kosasih, Deny |
| author_sort |
Poniman Kosasih, Deny |
| title |
THE OXIDATION EFFECT OF REINFORCED MATERIAL WITH RESPECT TO COMPRESSIVE STRENGTH OF STEEL FIBER REINFORCED ALUMINA SPINEL CASTABLE REFRACTORY LAMJ-1 |
| title_short |
THE OXIDATION EFFECT OF REINFORCED MATERIAL WITH RESPECT TO COMPRESSIVE STRENGTH OF STEEL FIBER REINFORCED ALUMINA SPINEL CASTABLE REFRACTORY LAMJ-1 |
| title_full |
THE OXIDATION EFFECT OF REINFORCED MATERIAL WITH RESPECT TO COMPRESSIVE STRENGTH OF STEEL FIBER REINFORCED ALUMINA SPINEL CASTABLE REFRACTORY LAMJ-1 |
| title_fullStr |
THE OXIDATION EFFECT OF REINFORCED MATERIAL WITH RESPECT TO COMPRESSIVE STRENGTH OF STEEL FIBER REINFORCED ALUMINA SPINEL CASTABLE REFRACTORY LAMJ-1 |
| title_full_unstemmed |
THE OXIDATION EFFECT OF REINFORCED MATERIAL WITH RESPECT TO COMPRESSIVE STRENGTH OF STEEL FIBER REINFORCED ALUMINA SPINEL CASTABLE REFRACTORY LAMJ-1 |
| title_sort |
oxidation effect of reinforced material with respect to compressive strength of steel fiber reinforced alumina spinel castable refractory lamj-1 |
| url |
https://digilib.itb.ac.id/gdl/view/38250 |
| _version_ |
1821997488853221376 |