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Fig.4 Mg Anode before (a) and after (b) experiment.jpg
Fig.4 Mg Anode before (a) and after (b) experiment.jpg
Nov 26, 2018 - The Selection of Magnesium alloys as Sacrificial Anode for the Cathodic Protection of Underground Steel Structure
JPEG Image - 34.6 KB - MD5: e52b508ad78fc665ee2372f819a480ec
Data
Fig.4 Mg Anode before (a) and after (b) experiment
TABLE I CHEMICAL COMPOSITION OF VARIOUS MG SACRIFICIAL ANODE.JPG
TABLE I CHEMICAL COMPOSITION OF VARIOUS MG SACRIFICIAL ANODE.JPG
Nov 26, 2018 - The Selection of Magnesium alloys as Sacrificial Anode for the Cathodic Protection of Underground Steel Structure
JPEG Image - 51.1 KB - MD5: 1cc526c68de4aa267776bf7bf010ad51
Data
TABLE I CHEMICAL COMPOSITION OF VARIOUS MG SACRIFICIAL ANODES
TABLE IIIII CHEMICAL COMPOSITION OF MG RAW MATERIAL FOR MAKING MG ANODE[7].JPG
TABLE IIIII CHEMICAL COMPOSITION OF MG RAW MATERIAL FOR MAKING MG ANODE[7].JPG
Nov 26, 2018 - The Selection of Magnesium alloys as Sacrificial Anode for the Cathodic Protection of Underground Steel Structure
JPEG Image - 36.4 KB - MD5: 73d15cdd96f669716520816db36dece1
Data
TABLE IIIII CHEMICAL COMPOSITION OF MG RAW MATERIAL FOR MAKING MG ANODE[7]
TABLE III THE RESULT OF AVERAGE CLOSED POTENTIAL ON VARIOUS MG ANODES.JPG
TABLE III THE RESULT OF AVERAGE CLOSED POTENTIAL ON VARIOUS MG ANODES.JPG
Nov 26, 2018 - The Selection of Magnesium alloys as Sacrificial Anode for the Cathodic Protection of Underground Steel Structure
JPEG Image - 22.9 KB - MD5: c522d292f092dcbdfdd3a009fbed7214
Data
TABLE III THE RESULT OF AVERAGE CLOSED POTENTIAL ON VARIOUS MG ANODES
TABLE IVV ALLOYING ELEMENT, COMPOSITION AND ELECTROCHEMICAL PROPERTIES FROM STANDARD MG SACRAFICIAL ANODE[16].JPG
TABLE IVV ALLOYING ELEMENT, COMPOSITION AND ELECTROCHEMICAL PROPERTIES FROM STANDARD MG SACRAFICIAL ANODE[16].JPG
Nov 26, 2018 - The Selection of Magnesium alloys as Sacrificial Anode for the Cathodic Protection of Underground Steel Structure
JPEG Image - 53.9 KB - MD5: 423de8f8f7b1545f2b799e85b042c4fb
Data
TABLE IVV ALLOYING ELEMENT, COMPOSITION AND ELECTROCHEMICAL PROPERTIES FROM STANDARD MG SACRAFICIAL ANODE[16]
TABLE VI CAPACITY, CURRENT CAPACITY AND CONSUMPTION RATE OF VARIOUS MG ANODE.JPG
TABLE VI CAPACITY, CURRENT CAPACITY AND CONSUMPTION RATE OF VARIOUS MG ANODE.JPG
Nov 26, 2018 - The Selection of Magnesium alloys as Sacrificial Anode for the Cathodic Protection of Underground Steel Structure
JPEG Image - 29.6 KB - MD5: 7533c03e5cd039e8c1b0f47ba6cd7d34
Data
TABLE VI CAPACITY, CURRENT CAPACITY AND CONSUMPTION RATE OF VARIOUS MG ANODE
TABLE V TOTAL AVERAGE CURRENT-HOUR (AH) OF MG ANODE.JPG
TABLE V TOTAL AVERAGE CURRENT-HOUR (AH) OF MG ANODE.JPG
Nov 26, 2018 - The Selection of Magnesium alloys as Sacrificial Anode for the Cathodic Protection of Underground Steel Structure
JPEG Image - 30.5 KB - MD5: 3bec4f1f47ecdc0278e6c7b97b67e06e
Data
TABLE V TOTAL AVERAGE CURRENT-HOUR (AH) OF MG ANODE
The Selection of Magnesium alloys as Sacrificial Anode for the Cathodic Protection of Underground Steel Structure.pdf
The Selection of Magnesium alloys as Sacrificial Anode for the Cathodic Protection of Underground Steel Structure.pdf
Nov 26, 2018 - The Selection of Magnesium alloys as Sacrificial Anode for the Cathodic Protection of Underground Steel Structure
Adobe PDF - 622.6 KB - MD5: 9651e5e7a125a780e353c1f967da38b8
Morfologi Struktur Mikro, Kekerasan, Dan Ketahanan Korosi Baja Tahan Karat Martensitik 13cr3mo3ni Hasil Quenching Dengan Variasi Temperatur Austenit
Morfologi Struktur Mikro, Kekerasan, Dan Ketahanan Korosi Baja Tahan Karat Martensitik 13cr3mo3ni Hasil Quenching Dengan Variasi Temperatur Austenit
Nov 25, 2018
Prifiharni, Siska; Ahmad, Denni; Juniarsih, Andini; Mabruri, Efendi, 2018, "Morfologi Struktur Mikro, Kekerasan, Dan Ketahanan Korosi Baja Tahan Karat Martensitik 13cr3mo3ni Hasil Quenching Dengan Variasi Temperatur Austenit", https://hdl.handle.net/20.500.12690/RIN/NAI8IL, RIN Dataverse, V1
Baja tahan karat martensitik tipe 410 biasa digunakan untuk aplikasi sudu turbin pada steam turbine. Perilaku baja tahan karat jenis ini dapat diperbaiki dengan berbagai cara, salah satunya yaitu dengan cara memodifikasi unsur baja tahan karat tipe 410 tersebut dan perlakuan pana...
Gambar 2. Strukturmikro dengan SEM dari baja tahan karat martensitik 13Cr3Mo3Ni hasil austenisasi selama 1 jam dan temper 650 °C dengan temperatur austenisasi (°C).JPG
Gambar 2. Strukturmikro dengan SEM dari baja tahan karat martensitik 13Cr3Mo3Ni hasil austenisasi selama 1 jam dan temper 650 °C dengan temperatur austenisasi (°C).JPG
Nov 25, 2018 - Morfologi Struktur Mikro, Kekerasan, Dan Ketahanan Korosi Baja Tahan Karat Martensitik 13cr3mo3ni Hasil Quenching Dengan Variasi Temperatur Austenit
JPEG Image - 126.9 KB - MD5: aacf575428a0593f344413d1111cf888
Data
Gambar 2. Strukturmikro dengan SEM dari baja tahan karat martensitik 13Cr3Mo3Ni hasil austenisasi selama 1 jam dan temper 650 °C dengan temperatur austenisasi (°C) (a) 950, (b) 1000, (c) 1050, dan (d) 1100. Struktur yang terbentuk yaitu martensit, karbida, dan δ ferrit. Etsa Kall...
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