Papers

Reviste internaționale (ISI Thomson Reuters și BID)

122. Ioana Stanciu, Rheological behavior of concentrated solutions depending on the type of polymer, Oriental Journal of Chemistry,  41 (6),   2025  (Factor impact 0.1100)

122.  Ioana Stanciu,  Variation of the dynamic viscosity of oxidized and non-oxidized canola oils with temperature, Oriental Journal of Chemistry,  41 (5),   2025  (Factor impact 0.1100)

121.  Ioana Stanciu,  Variation of the dynamic viscosity of oxidized and non-oxidized soybean oils with temperature, Oriental Journal of Chemistry,  40 (4),   2025  (Factor impact 0.1100)

120. Ioana Stanciu,  Variation of the dynamic viscosity of oxidized and non-oxidized corn oils with temperature, Oriental Journal of Chemistry,  41(3),   2025  (Factor impact 0.1100)

119. Ioana Stanciu, Chemical structure of SAE 10W oil without additives, Oriental Journal of Chemistry, 41(2), 2025 (Factor impact 0,1100)

118. Ioana Stanciu, Study of the composition of adipic esters by IR spectroscopy, Journal of Applied Chemical Science International, 16(1), 26-33 DOI: 10.56557/jacsi/2025/v16i19115

117. Ioana Stanciu, A review: Other types of esters used as plasticizers, International Journal of Chemical Studies, 13(1), 46-47 DOI: https://doi.org/10.22271/chemi.2025.v13.i1a.12501

116. Ioana Stanciu,  A review-Study of FTIR analysis of rapeseed oil, International Journal of Research in Engineering, 7(1), 8-10 2025 DOI:https://doi.org/10.33545/26648776.2025.v7.i1a.68 

115. Ioana Stanciu, A review: oils, greases, lubricants, additives with superior properties, Journal of Research in Chemistry, 6(1), 23-25   2025 DOI: https://doi.org/10.22271/reschem.2025.v6.i1a.162

114. Ioana Stanciu, A review: Esters from the citrus class, International Journal of Chemical Research and Development, 7(1), 25-28 (Factor impact 5.5000) 2025 https://doi.org/10.33545/26646552.2025.v7.i1a.75

113. Ioana Stanciu, A review: Esters from the phthalic class, International Journal of Chemical and Biological Sciences, 7(1), 29-31 2025 (Factor impact 5.6000) https://doi.org/10.33545/26646765.2025.v7.i1a.121

112. Ioana Stanciu,  Rheological behavior of lineesed ( Linum usitatissimum) oil, Oriental Journal of Chemistry41(1),  282-286  2025  (Factor impact 0.1100) DOI:  http://dx.doi.org/10.13005/ojc/410133

111. Ioana Stanciu, ,  A Review of Biodegradable Lubricants 3. Caracterization, Current Status, and Future Improvement Trends,  International Journal of Advanced Chemistry Research, 6(2), 66-68  2024 DOI: https://doi.org/10.33545/26646781.2024.v6.i2a.230

110. Ioana Stanciu, A Review: Esters with lubricant properties  International Journal of Chemical Research and Development, 6(2), 79-81 DOI: https://doi.org/10.33545/26646552.2024.v6.i2a.71

109. Ioana Stanciu, FTIR spectroscopy analysis of butanoic acid, Journal of Applied Chemical Science International 15(2), 26-29 DOI:10.56557/jacsi/2024/v15i28863

108. Ioana Stanciu, Temperature-dependent changes in the dynamic viscosity of oxidized and non-oxidized olive oils,  Oriental Journal of Chemistry,  40(6), 1836-1840  2024  (Factor impact 0.1100) DOI:  http://dx.doi.org/10.13005/ojc/400636

107. Ioana Stanciu,  A Review of Biodegradable Lubricants 1. Caracterization, Current Status, and Future Improvement Trends,  Journal of Research in Chemistry , 5(2) 52-54  2024 DOI: https://doi.org/10.22271/reschem. 2024.v5.i2a.143

106. Ioana StanciuRheological Properties of Soybean Oil with Nano Additives: A Comprehensive Review, Asian Journal of Advances in Research , 7(1), 408-412, 2024

105. Ioana Stanciu,  A Mini Review of Biodegradable Lubricants 2. Caracterization, Current Status, and Future Improvement Trends,  International Journal of Multidisciplinary Research and Publications, 7(3), 69-70  2024

104. Ioana Stanciu,  A Review of Biodegradable Lubricants 2. Caracterization, Current Status, and Future Improvement Trends,  International Journal of Chemical and Biological Sciences, 6(2), 63-64 2024 https://doi.org/10.33545/26646765.2024.v6.i2a.10

103.  Ioana Stanciu,  Influence of oxidation on the rheological parameters of vegetable oilsOriental Journal of Chemistry40(5),  1479-1483 2024  (Factor impact 0.1100) DOI: :  http://dx.doi.org/10.13005/ojc/400531

102.  Ioana Stanciu,  Investigation rheological behavior of chocolate,  Oriental Journal of Chemistry40(4), 1087-1090  2024  (Factor impact 0.1100) DOI: http://dx.doi.org/10.13005/ojc/400420 

101.  Ioana Stanciu,  New equations describing the rheological behavior of chocolate,  Oriental Journal of Chemistry40(3), 862-866  2024   (Factor impact 0.1100) DOI:  http://dx.doi.org/10.13005/ojc/400331

100.  Ioana Stanciu,  Influence of shear speed on the rheological behavior of chocolate,  Oriental Journal of Chemistry40(2), 437-440  2024  (Factor impact 0.1100) DOI: http://dx.doi.org/10.13005/ojc /400215 

99.  Ioana Stanciu,  Modele reologice pentru comportamentul uleiului de susan ( Sesamum indicum)  ,  Oriental Journal of Chemistry40(1), 165-168  2024  (Factor impact 0.1100) DOI:  http://dx.doi.org/10.13005/ ojc/400120

98.  Ioana Stanciu,  Study of the rheological behavior of olive oil at shear rates between 3.3 and 120s -1Oriental Journal of Chemistry39(1), 126-128  2023  (Factor impact 0.1100) DOI:  http://dx. doi.org/10.13005/ojc/390114 

97.  Ioana Stanciu,  Some methods for determining the viscosity index of hydraulic oil,  Indian Journal of Science & Technology16 (4), 254-258  2023  (Factor impact 0.1130)   DOI:  10.17485/IJST/v16i4.1461

96. Ioana Stanciu, Rheological behavior of corn oil at different viscosity and shear rate, Oriental Journal of Chemistry, 39(2), 335-339 2023 (Factor impact 0.1100) DOI:  http://dx.doi.org/10.13005/ojc/390212

95. Ioana Stanciu, Rheological characteristics of corn oil used in biodegradable lubricant, Oriental Journal of Chemistry39(3), 592-595 (Factor impact 0.1100) DOI:  http://dx.doi.org/10.13005/ojc/390307

94. Ioana Stanciu, Effect of temperature on rheology of corn (Zea maysoil, Oriental Journal of Chemistry39(4),  1068-1070 2023 (Factor impact 0.1100) DOI: http://dx.doi.org/10.13005/ojc/390434

93. Ioana Stanciu, Rheology of almond (Prunus amygdalus) oil used as biodegradable lubricant, Oriental Journal of Chemistry39(5), 1252-1254 2023 (Factor impact 0.1100) http://dx.doi.org/10.13005/ojc/390518

92. Ioana Stanciu, Rheology of cottonseed (Gossypium hirsutum) oil used as biodegradable lubricant, Oriental Journal of Chemistry39(6), 1696-1699 2023 (Factor impact 0.1100) http://dx.doi.org/10.13005/ojc/390633 

91. Ioana Stanciu, Rheological Behavior of Rapeseed Oil Shear Rate 3.3s-1 and 120s-1, Journal of  Biochemical Technology, 2(13), 54-59, 2022 (Impact factor 1.3270) https://doi.org/10.51847/yn8oUb7bPT

90. Ioana Stanciu, Rheological behavior of ruminal fluid obtained from barley feed speed, Oriental Journal of Chemistry, 38(2), 439-443, 2022 (Impact factor 0.1640) DOI: http://dx.doi.org/10.13005/ojc/380228

89. Ioana Stanciu, Rheological behavior of fruit and vegetable purees and tomato sauce, Oriental Journal of Chemistry, 38(6), 1550-1553, 2022 (Impact factor 0.1640) DOI: http://dx.doi.org/10.13005/ojc/380629

88. Ioana Stanciu, Rheograms describing the evolution of dynamic viscosity as a function of shear rate and shear stress for vegetable oils, Oriental Journal of Chemistry, 38(3), 724-726, 2022 (Impact factor 0.1640) DOI:  http://dx.doi.org/10.13005/ojc/380324

87. Ioana Stanciu, Influence of temperature on the rheological behavior of non-dditive olive oil, Oriental Journal of Chemistry, 38(1), 106-109, 2022 (Impact factor 0.1640) DOI: http://dx.doi.org/10.13005/ojc/380113

86. Ioana Stanciu, Rheology of gums used in the food and flour industry for "tortillas", Oriental Journal of Chemistry, 38(4), 936-939, 2022 (Impact factor 0.1640)  DOI: http://dx.doi.org/10.13005/ojc/380414

85. Ioana Stanciu, Rheology of non-additive olive oil used as a biodegradable lubricant, Oriental Journal of Chemistry, 38(5), 1296-1299, 2022 (Impact factor 0.1640) DOI: http://dx.doi.org/10.13005/ojc/380528

84. Ioana Stanciu, Study of Rheological Behavior of Olive Oil used as Biodegradable Lubricant, Oriental Journal of Chemistry, 37(5), 1248-1251, 2021 (Impact factor 0.7470) DOI:  http://dx.doi.org/10.13005/ojc/370533 

83. Ioana Stanciu, Rheological Study of Orange Honey with Influence on Concentration, Oriental Journal of Chemistry, 37(4), 864-867, 2021 (Impact factor 0.7470) DOI: http://dx.doi.org/10.13005/ojc/370413 

82. Ioana Stanciu, Noureddine Ouerfelli, Application extended Vogel -Tammann-Fulcher equation for soybean oil, Oriental Journal of Chemistry37(6), 1287-1294 2021 (Factor impact 0.7470)  DOI: http://dx.doi.org/10.13005/ojc/370603 

81. Ioana Stanciu, Influence of temperature on the rheological behavior of orange honey, Oriental Journal of Chemistry, 37(2), 440-443, 2021 (Impact factor 0.7470) DOI: http://dx.doi.org/10.13005/ojc/370225

80. Ioana Stanciu, Comparative study of rapeseed oil with hydraulic oil, Oriental Journal of Chemistry, 37(3), 752-754, 2021 (Impact factor 0.7470) DOI: http://dx.doi.org/10.13005/ojc/370333

79. Ioana Stanciu, Study rheological behavior of rapeseed oils compared to mineral oil, Oriental Journal of Chemistry, 37(1), 247-249, 2021 (Impact factor 0.7470)                  DOI: http://dx.doi.org/10.13005/ojc/370135

78. Ioana Stanciu, Rheological Characteristics of Castor Oil used as Biodegradable Lubricant,  Oriental Journal of Chemistry, 36(5), 973-975, 2020 (Impact factor 0.5610) DOI:  http://dx.doi.org/10.13005/ojc/360526

77. Ioana Stanciu, Theoretical rheological models for olive oil, Technium: Romanian Journal of Applied Sciences and Technology, 2(3), 122-127 2020

76. Ioana Stanciu, Aymen Messaâdi, Octavio Díez-Sales, Suhailah S. Al-Jameel, Ezzedine Mliki, Jose V. Herráez, Noureddine Ouerfelli, A novel equation correlating the rheological properties of some commercial tomato ketchups, Journal of Biochemical Technology, 3(11),  102-114, 2020 (Impact factor 1.3270)

75. Ioana Stanciu, Study Rheological Behavior of Refined Rapeseed Oil, Technium: Romanian Journal of Applied Sciences and Technology, 2(2), 20-24 2020

74. Ioana Stanciu, Noureddine Ouerfelli, An extended Casson equation for rheological properties of soybean oil at different temperatures and atmospheric pressure, Journal of Biochemical Technology, 3(11), 52-57 2020 (Impact factor 1.3270)

73. Ioana Stanciu, Dependence Viscosity of Temperature and Shear Rate for Vegetable Oil used as Biodegradable Lubricant, Oriental Journal of Chemistry, 36(3)  563-566 2020 (Impact factor 0.5610)  DOI:  http://dx.doi.org/10.13005/ojc/360329

72. Ioana Stanciu, Rheological Behavior of Castor Oil: Shear Stress Dependence Shear Rate, Journal of Biochemical Technology, 3(11), 37-42 2020 (Impact factor 1.3270) 

71. Ioana Stanciu, Rheological Characteristics of Lubricating Oils, Journal of Science and Arts, 2(51), 501-506 2020 (Impact factor 0.6750)

70. Ioana Stanciu, Study Rheological Behaviour of Biodegradable Lubricant, Oriental Journal of Chemistry, 36(2), 268-272 2020 (Impact factor 0.5610) DOI:  http://dx.doi.org/10.13005/ojc/360208

69. Ioana Stanciu, Assessment of Rheological Behaviors of Coconut Oil, Journal of Science and Arts, 1(50), 183-186 2020 (Impact factor 0.6750)

68. Ioana StanciuViscosity Index for Coconut Oil Used as Biodegradable Lubricant, PONTE International Scientific Researches Journal, 76(7), 222-225 2020 (Impact factor 0.8140) DOI: http://dx.doi.org/10.21506/j.ponte.2020.7.17

67. Ioana StanciuCorrelation Between Dynamic Viscosity and Shear Rate for Vegetable Oil, Oriental Journal of Chemistry, 36(1), 33-36  2020 (Impact factor 0.5610)  DOI: http://dx.doi.org/10.13005/ojc/360105

66. Ioana Stanciu, Model Mathematical of Dependence Dynamic Viscosity-Temperature for Coconut Oil, PONTE International Scientific Researches Journal, 76(2), 224-229 2020 (Impact factor 0.8140) DOI: http://dx.doi.org/10.21506/j.ponte.2020.2.18

65. Ioana Stanciu, Viscosity index for oil used as biodegradable lubricant, Indian Journal Science and Technology, 13(3), 352-359 2020 (Impact factor 0.5200) DOI: 10.17485/ijst/2020/v13i03/147759

64. Ioana Stanciu, Solubility Parameter for Copolymer used Additives for Lubricating Oil, Indian Journal Science and Technology, 12(30), 1-7 2019 (Impact factor 0.5200) DOI: 10.17485/ijst/2019/v12i30/146154

63. Ioana Stanciu, Rheological Behavior of Biodegradable Lubricants, Oriental Journal of Chemistry, 35(2) 684-688 2019 (Impact factor 0.6950) DOI:  http://dx.doi.org/10.13005/ojc/350224

62. Ioana StanciuStudies Concerning Vegetable Oils used as Biodegradable Lubricant, Journal of Science and Arts, 1(46), 195-200  2019 (Impact factor 0.6750)

61. Ioana StanciuNew Models Theoretical of the Rheological Behavior of Coconut Oil, Journal of Science and Arts, 2(47), 449-454  2019 (Impact factor 0.6750)

60. Ioana StanciuMethods for Determining the Solubility Parameter of Additives for Lubricating Oils, Oriental Journal of Chemistry, 35(4), 1297-1301 2019 (Impact factor 0.6950) DOI: http://dx.doi.org/10.13005/ojc/350407

59. Ioana StanciuNew Models Polynomial Experimental of Variation Dynamic Viscosity –Temperature for Soybean Oil, MAGNT Research Report, 6(1), 26-29 2019 (Impact factor 0.7900)

58. Ioana StanciuRheological Investigation of Soybean Oil from Soya Beans, Journal of Science and Arts, 4(49), 983-988  2019 (Impact factor 0.6750)

57. Ioana Stanciu, Rheological Behavior of Biodegradable Lubricant, Journal of Science and Arts, 3(48), 703-708  2019 (Impact factor 0.6750)

56. Ioana StanciuA New Model Mathematical for the Viscosity of Vegetable Oils Based on Freely Sliding Molecules, Grasas y Aceites, 70(3), e318 2019 (Impact factor 0.5640) https://doi.org/10.3989/gya.0824182

55. Ioana Stanciu, Models Rheological Mathematical of Dependence Dynamic Viscosity – Shear Rate for Soybean Oil, Journal of Science and Arts, 4(45), 1001-1006 2018 (Impact factor 0.6750) 

54. Ioana Stanciu, Viscosity Index for Soybean Oil, MAGNT Research Report, 5(3), 447-449 2018 (Impact factor 0.7900) doi:1444-8939.2018/5-3/MRR.45

53. Ioana StanciuModels rheological mathematical of dependence dynamic viscosity – shear rate for soybean oilJournal of Science and Arts, 4(45), 1001-1006  2018 (Impact factor 0.6750)

52. Ioana StanciuRheological  study behavior of soybean oilJournal of Science and Arts, 3(44), 711-716 2018 (Impact factor 0.6750)

51. Ioana Stanciu, Rheology Behavior of Soybean OilJournal of Science and Arts, 2(43), 453-458  2018 (Impact factor 0.6750) 

50. Ioana StanciuDetermination Viscosity Index Improvers for Multi-grade Oil of Copolymer Polyethylene-Propylene, Journal of Science and Arts, 1(42), 197-202 2018 (Impact factor 0.675)

49. Ioana StanciuMethods of Determination Viscosity Index Improvers for Multi-grade Oil of Copolymer Hydrogenated Poly (isoprene-co-styrene), MAGNT Research Report, 5(3), 462-467  2018 (Impact factor 0.7900) doi:1444-8939.2018/5-4/MRR.47

48. Ioana Stanciu, Viscosity Index Improvers for Multi-grade Oil of Copolymers Polyethylene -propylene and Hydrogenated Poly (isoprene-co-styrene), Journal of Science and Arts,  4(41), 771-778,  2017 (Impact factor 0.6750) 

47. Ioana StanciuDynamic Viscosity Dependence of the Shear Rate of Polyethylene-polypropylene Solutions Concentrated, MAGNT Research Report4(1), 44-49 2017 (Impact factor 0.6800) DOI: 1444-8939.2017/4-1/MRR.6

46. IoanaStanciu, Mathematical Models Describe Rheological Behavior of Rapeseed Oils PONTE International Scientific Researches Journal, 73(4), 275-284 2017 (Impact factor 0.7240) DOI: 10.21506/j.ponte.2017.4.58

45. Ioana StanciuMathematical Modeling of Dynamic Viscosity with Inverse Absolute Temperature for Solutions Concentrates, PONTE  International Scientific Researches Journal, 72(7), 42-49  2016  (Impact factor 0.7240)  DOI: 10.21506/j.ponte.2016.7.35 

44. Ioana StanciuEffect Concentration and Temperature on the Rheological Behavior of Copolymer Polyethylene-Propylene Solutions, MAGNT Reserach Report 4(3), 109-118, 2016 (Impact factor 0.6800) DOI: dx.doi.org/14.9831/1444-8939.2016/4-3/MRR.13

43. Ioana StanciuMathematical Dependence of the Dynamic Viscosity in Relation with the Shear Rate for the of Copolymer Hydrogenated Poly(isoprene-co-styrene) Concentrated Solutions, MAGNT Research Report, 4(5), 169-174, 2016 (Impact factor 0.6800) DOI: dx.doi.org/14.9831/1444-8939.2016/4-5/MRR.18

42. Ioana StanciuMathematical Equations that Describe the  Rheological   Behavior  of Sunflower Oil, MAGNT Reserach Report, 4(1), 8-12, 2016 (Impact factor 0.6800)  DOI: dx.doi.org/14.9831/1444-8939.2016/4-1/MRR.03  

41. Ioana Stanciu, A Mathematic Modelling of the Dynamic Viscosity in Relation with the Shear Rate and Temperature for the Copolymer Hydrogenated Poly(isoprene-co-styrene) Solutions, MAGNT Research Report, 3(9), 314-324, 2015 (Impact factor 0.6800) DOI: dx.doi.org/14.9831/1444-8939.2015/3-9/MRR.25

40. Ioana Stanciu, Relationship Between Dynamic Viscosity and Inverse Absolute Temperature to the Concentrated Solutions, Oriental Journal of Chemistry, 31(4), 2017-2023, 2015 (Impact factor 0.5350) DOI: http://dx.doi.org/10.13005/ojc/310419

39. Ioana Stanciu, The Physicol-chemical Analyzes of Copolymer Paratone 8900 Used as Viscosity Improvers for SAE 10W-40 Mineral Oil, Oriental Journal of Chemistry, 31(3), 1383-1387, 2015 (Impact factor 0.53500) DOI: http://dx.doi.org/10.13005/ojc/310315 

38. Ioana Stanciu, Rheological Characteristics of Hydraulic Oil, Paripex – Indian Journal of Research, 4(4), 62-63, 2015 (Impact factor 3.4163) DOI: 10.15373/22501991

37. Ioana Stanciu, Methods of Determination Hansen Solubility Parameter of a Paratone 8900, International Journal of Scientific Research, 4(5), 12-13, 2015 (Impact factor 3.2416)  DOI: 10.15373/22778179

36. Ioana Stanciu, Influence Temperature and Dynamic Viscosity of Rheological Behavior for Refined Sunflower Oil, Indian Journal of Applied Research, 5(3), 40-41, 2015 (Impact factor 3.6241) DOI: 10.15373/2249555X 

35. Ioana Stanciu, The Analyses of Copolymer Shelvis used as Viscosity Improvers for SAE 10W-40 Mineral Oil, Paripex – Indian Journal of Research, 4(1), 7-9, 2015 (Impact factor 3.4163) DOI: 10.15373/22501991

34. Ioana Stanciu, Method of Determination Viscosity Index of Sunflower Oil, International Journal of Scientific Research, 3(11), 55-56, 2014 (Impact factor 1.8651)  DOI: 10.15373/22778179

33. Ioana Stanciu,  The Effect Temperature and Shear Rate on the Rheological Behavior for Sunflower Oil, Paripex – Indian Journal of Research, 3(10), 14-16, 2014 (Impact factor 1.6714) DOI: 10.15373/22501991

32. Ioana Stanciu, New Mathematical Relationship of Dependence Dynamic Viscosity of Absolute Temperature for Sunflower Oil, Indian Journal of Applied Research, 4(9), 48-50, 2014 (Impact factor 2.6152) DOI: 10.15373/2249555X 

31. Ioana Stanciu, The Relationship Dynamic Viscosity on Inverse Temperature Squared for Sunflower Oil, Indian Journal of Scientific Research, 8(1)(Special Online Issue-July), 210-213, 2014 (Impact factor 1.4053)

30. Ioana Stanciu, Regression Models that Describe Sunflower Oil Dynamic Viscosity of Temperature Absolute, International Journal of Scientific Research, 3(4), 53-54, 2014 (Impact factor 1.8651) DOI : 10.15373/22778179

29. Ioana Stanciu, The Study Rheological Behavior for Sunflower Oil, International Research Journal of Pure and Applied Chemistry, 4(5)(September-October), 531-540, 2014

28. Ioana Stanciu, Rheological Behavior of Concentrated Solutions EPDM of Some  Viscosity Improvers in SAE 10W-40 Mineral Oil, Journal of Scientific Research and Reports, 3(11)(1-15 June), 1518-1533, 2014

27. Ioana Stanciu, New Relationship to Describe the Rheology of Sunflower oil, Ovidius University Annals of Chemistry, 1(25), 28-31, 2014

26. Ioana Stanciu, Application of New Models in Rheological Behavior Study Sunflower Oil, American Chemical Science Journal, 4(4)(July-August), 537-545, 2014

25. Ioana Stanciu, New Rheological Models for Vegetable Oil, International Journal of Agriculture Innovations and Research, 1(4), 107-108, 2013

24. Ioana Stanciu, Study Rheological Behaviour of Rapeseed Oils, Journal of Chemistry and Chemical Engineering, 2(7), 184-186, 2013

23. Ioana Stanciu, Study Concerning the Rheological Behavior of Sunflower oil, Journal of Science and Arts, 4(25), 355-360, 2013 (Impact factor 0.6750)

22. Ioana Stanciu, A New Viscosity-Shear Rate Relationship for Mineral Oil, Journal of Science and Arts, 2(23), 181-184, 2013 (Impact factor 0.6750)

21. Ioana Stanciu, Viscosity Improvers for Copolymer Polyethylene-Polypropylene Solutions, Journal of Science and Arts, 2(23), 189-194, 2013 (Impact factor 0.6750)

20. Ioana Stanciu, A Study Rheological Behavior of Refined Rapeseed Oil, Ovidius University Annals of Chemistry, 1(24), 51-54, 2013 (Impact factor 0.1900)

19. Ioana Stanciu, New Rheological Models for Mineral Oil, Journal of Science and Arts, 1(22), 67-70, 2013 (Impact factor 0.6750)

18. Ioana Stanciu, Viscosity Improvers for Solutions Copolymer Ethylene Propylene in Oil SAE 10W-40, Journal of Science and Arts, 1(22), 73-76, 2013 (Impact factor 0.6750)

17. Ioana Stanciu, Viscosity Improvers for Copolymer Polyethylene-Polypropylene Solutions, Journal of Science and Arts, 2(23), 181-184, 2013 (Impact factor 0.6750)

16. Ioana Stanciu, Viscosity Improvers for Concentrated Solutions of a Poly (Alkyl Methacrylate), Journal of Science and Arts, 4(25), 371-374, 2013 (Impact factor 0.6750)

15. Ioana Stanciu, A New Viscosity–Temperature Relationship for Vegetable Oil, Journal of Petroleum Technology and Alternative Fuels, 3(2), 17-21, 2012 DOI: 10.5897/JPTAF12.001

14. Ioana Stanciu, Viscosity Indices of Rapeseed Oils, Journal of Chemistry and Chemical Engineering, 6(7), 668-671, 2012

13. Ioana Stanciu, Modeling the Temperature Dependence of Dynamic Viscosity for Oil SAE 10W no Additive, Journal of Science and Arts, 3(20), 331-334, 2012 (Impact factor 0.6750)

12. Ioana Stanciu, A New Viscosity-Shear Rate Relationship for Rapeseed Oil,  Journal of Science and Arts, 3(20), 313-316, 2012 (Impact factor 0.6750)

11. Ioana Stanciu, Rheological Properties of Rapeseed Oil and Hydraulic Oil, Scientific Study & Research - Chemistry & Chemical Engineering, Biotechnology, Food Industry, 13(2)241-245, 2012 (Impact factor 0.1330)

10. Ioana Stanciu, Methods for Calculating the Viscosity Index Hydraulic Oil, Journal of Science and Arts, 2(19), 189-192, 2012 (Impact factor 0.6750)

9. Ioana Stanciu, A New Viscosity-Temperature Relationship for Mineral Oil SAE 10W, Ovidius University Annals of Chemistry, 23(1), 27-30, 2012 (Impact factor 0.1640)

8. Ioana Stanciu, Rheological Behavior of Hydraulic Oil, Journal of Science and Arts, 1(18), 63-66, 2012 (Impact factor 0.6750)

7. Ioana Stanciu, Rheological Behaviour of Mineral Oil, Journal of Science and Arts, 4(17), 487-490, 2011 (Impact factor 0.6750)

6. Ioana Stanciu, Viscosity Index of Rapeseed Oil, Journal of Science and Arts, 4(17), 445-448, 2011 (Impact factor 0.6750)

5. Ioana Stanciu, Rheological Behavior of Refined Rapeseed Oil, Journal of Chemistry and Chemical Engineering, 5(12), 1175-1178, 2011

4. Ioana Stanciu, Rheological Properties of Rapeseed Oil and Hydraulic Oil, Scientific Bulletin Series B: Chemistry and Materials Science73(3), 141-146, 2011 (Impact factor 0.3190)

3. Ioana Stanciu, Modeling the Temperature Dependence of Dynamic Viscosity for Rapeseed Oil, Journal of Science and Arts, 1(14), 55-58, 2011 (Impact factor 0.6750)

2. Ioana Stanciu, Minodora Leca, Studies of Some Viscosity Improvers for Multi-Grade Oils 2. Rheological Behaviour of Concentrated Solution, Materiale plastice, 43(3), 236-240, 2006 (Impact factor 0.3190)

1. Ioana Stanciu, Minodora Leca, Studies of Some Viscosity Improvers for Multi-Grade Oils 1. Solubility Parameters, Materiale plastice, 42(4), 268-271, 2005 (Impact factor 0.4120)

 National Journals (B+ and D)

10. Ioana Stanciu, Exponential Dependence of Dynamic Viscosity – Shear Rate for Vegetable Oils, Annals food science and technology, 14(2), 230-232, 2013

9. Ioana Stanciu, Rheological Properties of Mineral Oil, Annals of Dunarea de Jos University of Galati – Fascicle II – Mathematics, Physics, Theoretical Mechanics, III(XXXIII), 161-163, 2011

8. Ioana Stanciu, Integrarea tehnologiei moderne în procesul de predare – învăţare–evaluare centrat pe elev în lecţiile de fizică, Revista ştiintifică V. Adamachi,  XIX nr.1-4 (Serie nouă) ianuarie – iunie, 1-2, 2010

7. Ioana Stanciu, Study Solubility of Two Copolymers Used as Viscosity Improvers for Multi-Grade Oil, Annals of Dunarea de Jos University of Galati –Fascicle V – Technologies in Machine Building,  XXVII(XXXII), 323-326, 2009

6. Ioana Stanciu, Studies Physico-Chemical of Copolymers Used as Viscosity Improvers for SAE 10W Mineral Oil, Ovidius University Annals of Chemistry, 20(1), 72-75, 2009 

5. Ioana Stanciu, Thermic Behaviour of Two Copolymers Used as Viscosity Improvers for SAE 10W Mineral Oil, Bull.Petroleum-Gas Univ. Ploiesti- Technical Series, LX(4B), 37-40, 2008

4. Ioana Stanciu, Multilinear Regression Analysis in TGA Curves of a Copolymer INFINEUM SV 260, Bull.Petroleum-Gas Univ. Ploiesti- Technical Series, LIX(4), 81-84, 2007

3. Ioana Stanciu,  Minodora Leca, Viscosity Improvers for Multi-Grade Oils,  Bull.Petroleum-Gas Univ. Ploiesti-Technical Series, LIX(2), 65-70, 2007

2. Ioana Stanciu, Minodora Leca, Improved Method to Calculate Hansen Solubility Parameters of a Copolymer INFINEUM SV 260, Bull.Petroleum-Gas Univ. Ploiesti-Technical Series, LIX(1), 69-72, 2007

1. Ioana Stanciu, Minodora Leca, Rheological Behaviour of Multi-Grade Oils, Bull.Petroleum-Gas Univ. Ploiesti-Technical Series, LVIII(4), 37-44, 2006

 Proceedings conference

8. Ioana Stanciu, Methods of determination viscosity index improvers for multi-grade oil of copolymer hydrogenated poly (isoprene-co-styrene) Proc. 14th International Conference on Fundamental and Applied Aspects of Physical Chemistry Belgrade, Serbia, September 24th-28th, 723-725, 2018.

7. Ioana Stanciu, Viscosity Index Improvers for Multi-grade Oil of Copolymers Polyethylene-propylene and Hydrogenated Poly (isoprene-co-styrene), Proc. IBEREO 2017 The multidisciplinary science of rheologyValenciaSpainSeptember 6th-8th, 202-206, 2017

6. Ioana Stanciu, Rheological Behavior Modelling for the Copolymer Hydrogenated Poly (isoprene-co-styrene) Solutions, Proc. 32nd  International Conference of the Polymer Processing Society, Lyon, France, July 25th-29th, 2016

5. Ioana Stanciu, Evaluation of Rheological Behavior of Some Polyethylene-Polypropylene Concentrated SolutionsProc. IBEREO 2015 Challenges in Rheology and Product DevelopmentCoimbra, Portugal September 7th-9th, 279-282, 2015.

4. Ioana Stanciu, New Method to Calculate Hansen Solubility Parameter for EPDM, Proc. 12th International Conference on Fundamental and Applied Aspects of Physical Chemistry Belgrade, Serbia, September 22th-26th, 771-774, 2014.

3. Ioana Stanciu, Rheological Behaviour Study of Rapessed Oil, Proc. Romanian International Conference on Chemistry and Chemical Engineering – RICCCE XVII, International Hotel, Sinaia, September 7th-10th, 80-83, 2011.

2. Ioana Stanciu, Rheological Behavior of Refined Rapeseed Oil, Proc. Conference Dynamic of Complex Fluids, Institute of Macromolecular Chemistry ‘‘Petru Poni’’ Iasi, May 5th-7th, 248-253, 2011.

1. Ioana Stanciu, Kinetic Parameters from Thermogravimetric of Copolymer PARATONE 8900 Used as Viscosity Improvers for Multi-Grade Oil, Center of Research Food, Chemical and Biochemical Engineering, CISA 2010, University of Bacau, April 8th-11th, Slanic Moldova Bacau, 281-284, 2010.


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