1.In USA

1) H.Itofuji, et al. “The Formation Mechanism of Compacted vermicular Graphite in Cast irons,”87th
Conference, Chicago/Transactions of the American Foundrymen’s Society, vol.91(1983), PP831-840.

2) H.Itofuji, et al. “Comparison of Substructure of Compacted/vermicular Graphite with Other Types of Graphite, “87th Conference, Chicago/Transaction of the American Foundrymen’s Society,Vol.91(1983), PP313-324.

3) H.Itofuji, et al. “Production and Evaluation of Heavy Section Ductile Cast Iron, “94th Conference, Detroit/Transactions of the American Foundrymen’s Society,vol.98(1990), PP585-595.

4) H.itofuji, et al. “Formation Mechanism of Chunky Graphite in Heavy Section Ductile Cast Irons,” 94th Conference, Detroit/Transactions of the American Foundrymen’s Society,vol.98(1990), PP429-448.

5) H.Itofuji, “Proposal of the Site Theory, “Transactions of the American Foundrymen’s Society, vol.104(1996), PP79-89.

6) T.Kotani, K.Edane, H.Kambayashi, K.Iwakado and H.Itofuji, “Amount of Free Carbon in Spheroidal Graphite Iron Castings with Different Modulus, “Transactions of the American Foundrymen’s Society, vol.124(2016) PP215-219/

7) Y.Miyamoto, H.Itofuji, “Shrinkage Analysis Considering Expansion and Contraction Behavior in Heavy Section Spheroidal Graphite Iron Castings, “Transactions of the American Foundrymen’s Society,Vol.127(2019)

2.In UK

1) H.Itofuji, “Magnesium Map of the Spheroidal Graphite Structure in Ductile Cast Irons, “CAST METALS, vol.5 No.1(1992), P6-19.

2) H.Itofuji, “Letter to the Editor,” CAST METALS, vol.5,No.4(1993) PP235-238.

3) H.Itofuji, “The Influence of Free Magnesium on Some Properties in Spheroidal Graphite Iron,” Intemational Jourmal of Cast Metals Research, vol.12, No.3(1999) PP179-187.

4) H.Itofuji and A.Masutani, “Nucleation and Growth Behaviour of Chunky Graphite,” Intermational Journal of Cast Metals Research, vol.14,No.1(2001) PP1-14.

5) H.Itofuji, “A Detailed Study of the Site of Mg-Halo as Detected by CMA” International Journal of Cast Metals Research, vol.14,No.1(2001) PP15-23.

6) H.Itofuji, “Study of Voids in Chilled Samples of Magnesium-Treated Irons,” International Journal of Cast Metals Research, vol.17,No.4(2004) PP220-228.

3.Worldwide

1) H.Itofuji et al. “Quality Control of Heavy Section Ductile Cast Iron Based on Spheroidization Theory,” The 57th World Foundry Congress, Poster Session A-15, Osaka, Sept.25-26(1990) PP33-35.

2) H.Itofuji, “Application of the Site Theory on the Quality Controlof Heavy Section Spheroidal Graphite Cast Iron,” Keith D. Millis World Symposium on Ductile Iron, Hilton Head Is., SC, Oct.19-23(1993),PP1-40.

3) H.Itofuji, “Nucleation and Growth Process of Chunky Graphite in Heavy-Section Ductile Cast Irons,” Proceedings of the 5th Asia Foundry Congress, Nanjing, Sept.23-25(1997) PP235-245.

4) H.Itofuji, “Analysis of Free Magnesium by Spectrometer,” The Ductile Iron Society, K.D.Millis World Symposium on Ductile Iron, Hilton Head is., SC, Oct.20-22(1998) PP117-141.

5) H.Itofuji, M.tamura, H. Ito, T.Nishimura and Y.Esasika, “Production of the 7-ton Nomagnetic Ductile Iron Castings for World Largest Class Power Generator” material Transactions, Vol.51(2010) No.1, PP103-109.

6) K.Ishikawa, T.Kotani ,T.Ogino, H.Itofuji, 「Effect of Heat Balancer Technique applied for Heavy Sectio Ductile Iron Castings」 The 12th AFC(2013)

7) T.Kotani, K.Edane, K.Iwakado, H.Itofuji, “Amount of Free Carbon at End of Solidification in Spheroidal Graphite Iron Castings,” Proceedings of CasTec2016, PP85-94

8) H.Itofuji, K.Edane, T.Kotani, M.Itamjura, K.Anzai, “Chill-free Permanent Mold Casting of Spheroidal Graphite Iron,” Preceedings of CasTec2016, PP98-108

9) H.Itofuji, K.Edane, T.Kotani, M.Itamura, K.Anzai, “Ultrafine Spheroidal Graphite Iron Castings” Material Transactions, Vol.60, No,1(2019)PP41-48

10) H.Itofuji, K.Edane, T.Sakatani, M.Itamura, “Ultrafine Spheroidal Iron Castings by Use of Thin-Walled Permanent Molds,” 2nd Carl Koper Cast Ilon Symposium(2019) Oct01-Hi-mornng (

11) H.Itofuji, Y.Miyamoto, K.Edane, M.Itamura, “Veriflcation of Free Nitrogen Theory in Gray Iron Melting Process,” Material Transactions, Under Contribution(2019)

4.In Japan

1) 糸藤、他「CV黒鉛の形成機構」 鋳物、第56巻(1984)第6号、PP11-18.

H.Itofuji, et.al., "The Formation Mechanism of Compacted/Vermicular
Graphite in Cast Irons," IMONO, vol.56, No.6(1984) PP11-18.

2) 糸藤、山田「黒鉛球状へのMgの役割」鋳物、第67巻(1995)第11号、PP767-774
.
H.Itofuji,et.al., "The Role of Magnesium on Graphite Spheroidization," IMONO, vol.67, No.11(1995) PP767-774.

3) 糸藤「フリーマグネシウム量と黒鉛球状化率の送還」鋳造工学、第72巻(2000)第10号、PP645-651.

H.Itofuji "Relationship between Free-magnesium Quantity and Graphite
Nodularity," J. of Japan Foundry Engineering Society, vol.72, No.10(2000)
PP645-651.

4) 糸藤「サイト説入門」こしき、No.26(2003) PP10-36.

H.Itofuji, "Introduction to The Site Theory," Kosiki, vol.26(2003)
PP10-36.

5) 糸藤、桝谷「厚肉鋳物におけるチャンキィ黒鉛の生成・成長挙動」クフ増工学、第76巻(2004)第2号、 PP98-106.

H.Itofuji, et al., "Nucleation and Growth Behaviour of Chunky Graphite
in Heavy Section Casting," j. of Japan Foundry Engineering Society,
vol.76, No.2(2004) PP98-106.

6) 糸藤、清中「大型肉厚α系FCDの実態強度保証」;鋳造工学、第80巻(2008)第2号、 PP113-119.

H.Itofuji, et al., "Nucleation and Growth Behaviour of Chunky Graphite
in Heavy Section Casting," J. of Japan Foundry Engineering Society,
Vol.76, No.2(2004) PP98-106.

7) 糸藤、山田「CMAによる球状黒鉛中のマグネシュウムハロー位置の特定」鋳造工 Vol.81(2009) No.11, PP521-528.

H.Itofuji and H.Yamada "Determination of Magnesium-Halo Site in Spheroidal
Graphite Nodules Using CMA" J. of Japan Foundry Engineering Society,
Vol.81, 11(2009) pp521-528.

8)糸藤、山田「マグネシウム処理鋳鉄の急令凝固試料におけるボイドからみた球状黒鉛形成過程」鋳造工学、Vol.82(2010)No.5,PP269-277.

H.Itofuji and H.yamada "Spherroidal Graphite Formation Process cosidered
from Voids in Chilled Samples of Magnesium Treaed Irons" J.of Japan
Foundry Engineering Society, Vol.82,5(2010)PP269-277.

9)糸藤「厚肉球状黒鉛鋳鉄におけるチャンキー黒鉛晶出の原因と対策」鋳造工学84,3(2012)152.

H.Itofuji"Cause and Countermeasure of Chunky Graphite Crystallization Heavy Section Spheroidal Graphite Cast Irons" J. of Japan Foundry Engineering Society, vol.84(2012)152.

10)糸藤「黒鉛球状化理論-サイト説」鋳造工学84,4(2012)194.

Site Theory as Graphite Spheroidization Theory J. of Japan Foundry Engineering
Society, vol.84,4(2012)194-202.

11)糸藤「大物黒鉛球状鋳鉄へのレアアースフリー球状化剤への適用」鋳造工学8,12(2012)725-731.

H.Itofuji "Application of Rare Earth Free Spheroidizerfor for Production
of Heavy Section Ductile Cast Irons" J. of Japan Foundry Engineering
Society, vol.84,12(2012)725-731.

12)石川、小谷、荻野、糸藤「熱バランサー適用による球状黒鉛鋳鉄品の品質改善」こしき 36(2013)38-40.

K.Ishikawa, T.KOtani, T.Ogino, and H.Itofuji "Quality Lmprovent of
Spheroidal Graphite Iron Castings Applied Heat Balancer" Koshiki,36(2013)PP33-40.

13)板村正行、糸藤春喜、井本尚充「東北復興とダクタイルダイカストプロジェクト」アルトピア, Vol.46, No.10(2016)PP40-49.PP17-25.

M.Itamura, H.Itofuji, N.Imoto, "Ductile Die Cast Project toward Reconstruction
for Tohoku," Alutopia 46,10(2016)40-49

14)板村正行、糸藤春喜、安達充「半凝固ダクタイル鋳鉄成形法の開発」アルトピア,Vol.46, No.11(2016)PP17-25

M.Itamura, H.Itofuji, M.Adachi, "Development of Rheo Cast Method in
Ductile Iron," Alutopia 46,11(2016)17-25.

15)板村正行、糸藤春喜、安達充「半凝固ダクタイル鋳鉄成形法の開発」素素材,Vol.58, No.3(2017)PP45-51.

M.Itamura, H.Itofuji, M,Adachi, "Development of Rheo Cast Method in Ductile Iron," Sokeizai 58,3(2017)45-51.

16) 藤川康弘,山本賢,間柴進,糸藤春喜,「大物厚肉球状黒鉛鋳鉄の黒鉛粒数に及ぼす二次接種剤の影響」こしき40(2017)63-65.

Y.Fujikawa, S.Yamamoto, S.mashiba, H.Itofuji, "Influence of Post Inoculation
on Nodule count in Heavy Section Ductile Cast Irons," Koshiki 40(2017)63-65.

17) 芥子田賢,岩角圭太,松下哲也,糸藤春喜「凝固制御した厚肉供試材の強度」こしき40(2017)69-70.

S.Keshiba, K.Iwakado, T.Matsushita, H.Itofuji, "Strength of Heavy
Section Sample solidified in Control," Koshiki 40(2017)69-70.

18) 藤川康弘,山本賢,間柴進,糸藤春喜,「大物厚肉球状黒鉛鋳鉄に及ぼす二次接種剤増粒効果」こしき41(2018)1-5.

Y.Fujikawa, S.Yamamoto, S.Mashiba, H.Itofuji, "Effects of Post Inoculation
on Increasing Nodule count in Heavy Section Ductile Cast Irons,"Koshiki41(2018)1-5.

19) 石川和哉,小谷友勝,荻野知也,糸藤春喜,「球状黒鉛鋳鉄への熱バランサー適用」こしき41(2018)6-9.

K.Ishikawa,T.Kotani, T.Ogino,H.Itofuji,W"Application of Heat Balance
to Sepheroidal Graphite Iron Castings," Koshiki 41(2018)6-9.

20)宮本諭卓、糸藤春喜「凝固中の体積変化を考慮したCAEによる肉厚球状黒鉛鋳鉄のひけ巣予測」鋳造工学、Vol.90,4(2018)PP178-181.

Y.Miyamoto, H.Itofuji, "Prediction of Shrinkage Cavity in Heavy-Section
Ductile Cast Iron Using CAE Considering Volume Change During Solidification,"
J.JFS90,4(2018)175-181.

21)宮本諭卓、糸藤春喜「凝固中の体積変化を考慮した肉厚球状黒鉛鋳鉄実態モデルのひけ単発生位置予測」鋳造工学、Vol.90,8(2018)PP450-456

Y.Miyamoto, H.Itofuji, "Prediction of Shrinkage Cavity Occuring Position with Consideration of Volumetric Change during Solidication of Heavy Swction Ductile Cast Iron," J.JFS90,8(2018)450-456.

22)糸藤春喜「球状黒鉛鋳鉄の黒鉛球状化理論‐サイト説」鋳造工学90,10(2018)587-593.

H.Itofuji, "Mg Halo as Trace of Gas Bubble in Spheroidal Graphite,"
J.JFS 90,10(2018)5897-593

23)宮本論卓,糸藤春喜「凝固時の膨張収縮を考慮した球状黒鉛鋳鉄鋳物のひけ巣予測に及ぼすモジュラスの影響」鋳造工学91,3(2019)35-140.

Yutaka, Miyamoto, H.Itofuji, "Effect of Modulus on Shrinkage Cavity
of Spheroidal Graphite Cast Iron Castings Predicted by Considering Expansion
and Contraction during Solidification," J.JFS 91,3(2019)135-140

2019.8.3__Application_of_Free_Nitrogen_Theory_in_Iron_Melting_using_Electric_Arc_Furnace.