1. Stapelfehlerenergie und thermisch aktiviertes Fliessen von Silber-Einkristallen. M. Ahlers and P. Haasen. Z. Metallkd., 53(1962) 302.

2. Orientierungsänderung und Mehrfachgleitung von Silberein-kristallen. M. Ahlers and P. Haasen. Acta Metall., 10 (1962) 977.

3. Der Einfluss kleinster Sauerstoffgehalte auf die Plastizität von Silbereinkristallen. M. Ahlers. Z. Metallkd., 56 (1965) 741.

4. Die Stapelfehlerenergie von Gold nach der tau III Methode. M. Ahlers and P. Haasen. Phys. Status Solidi, 10 (1965)485.

5. Line Shape Analysis of Deformed Cu-Ge Alloys. M. Ahlers and L.F. Vassamillet. Adv. X-Ray Anal.,10 (1967) 265.

6. X-Ray Peak Profiles for Ultramicrotomed Powders and Their Relation to the Deformation Structure. M. Ahlers and L.F. Vassamillet. J. Appl. Phys., 39 (1968) 3587.

7. Deformation of Some FCC Metals by Ultramicrotomy. M.Ahlers and L.F. Vassamillet. J. Appl. Phys., 39 (1968)3592.

8. Stress-Induced Martensite in Single Crystals of Cu-Zn Beta Phase Alloys. M. Ahlers and H. Pops. Trans. Metall. Soc.AIME, 242 (1968) 1267.

9. On the Theory of "{225}" Martensite. M. Ahlers. Scr. Metall., 2 (1968) 529

10. Martensite Produced by Deformation in Monocrystals of Beta-brass. H. Pops and M. Ahlers. Proc. Int. Symp. on the Mechanisms of Phase Transformation in Crystalline Solids. Manchester,(1968) p. 197.

11. Recrystallization of Thin Films of alpha Cu-Ge Alloys. M. Ahlers and L.F. Vassamillet. J. Appl. Phys., 40 (1969) 2335.

12. Stacking Fault Energy and Mechanical Properties. M. Ahlers. Metall. Trans., 1 (1970) 2415.

13. An Electron Microscopy Study of Martensite Formation in Beta Cu-Zn. R. Rapacioli and M. Ahlers. Scr. Metall., 7 (1973) 977.

14. Plastic Deformation of Martensitic Cu-Zn Single Crystals. W. Arneodo and M. Ahlers. Scr. Metall., 7 (1973) 1287.

15. The Martensitic Transformation: A Model. M. Ahlers. Z.Metallkd., 65 (1974) 636

16. The Martensitic Transformation in Beta Cu-Zn. W. Arneodo and M. Ahlers. Acta Metall., 22 (1974) 1475.

17. The Crystallography of the Martensitic Transformation in (225) Steels. M. Ahlers. Z. Metallkd., 65 (1974) 213.

18. On the Stability of the Martensite in Beta-Cu-Zn alloys. M. Ahlers. Scr. Metall., 8 (1974) 213.

19. On the Usefulness of Martensitic Transformations for Energy Conversion M. Ahlers. Scr. Metall., 9 (1975) 71.

20. Acoustic Emission and the Martensitic Transformation of beta brass. R. Pascual, M. Ahlers, R. Rapacioli and W. Arneodo. Scr. Metall., 9 (1975) 79.

21. The Martensitic Transformation in (225)Martensite of Iron Alloys: An Atomistic Description. M. Ahlers. Scr. Metall., 9 (1975) 623.

22. The Martensitic Transformation in Beta-Brass and the Shape Memory Effect. M. Ahlers, R. Rapacioli and W. Arneodo. Int. Symp. on Shape Memory Effects and Applications, ed. J. Perkins, Plenum Press, New York, 1975. p. 379.

23. The Rubberlike Behavior in Cu-Zn-Al Martensite Single Crystals. R. Rapacioli, M. Chandrasekaran, M. Ahlers and L.Delaey. Int. Symp. on Shape Memory Effects and Applications, ed. J. Perkins, Plenum Press, New York, 1975. p. 385.

24. Stress Induced Martensite in Iron-Nickel Single Crystals. M. Ahlers. Scr. Metall., 10 (1976) 989.

25. Transformation Hardening and Energy Dissipation in Martensitic Beta-Brass. M. Ahlers, R. Pascual, R. Rapacioli and W. Arneodo. Mat. Sci. Eng., 27 (1977) 49.

26. Plastic Flow and the Normal-Superconducting Transition in Lead Single Crystals. D.Esparza and M.Ahlers. Acta Metall., 25 (1977) 1047.

27. Ordering in Ternary Beta Phase Cu-Zn-Al alloys. R. Rapacioli and M. Ahlers. Scr. Metall., 11 (1977) 1147.

28. Stress Corrosion Cracking in Single Crystals of Fe-25Cr-20 Ni. M. Ahlers and E. Riecke. Corros. Sci., 18 (1978) 21.

29. The Rubber Effect in Cu-Zn-Al Martensite. G. Barceló, R. Rapacioli and M. Ahlers. Scr. Metall., 12 (1978) 1069.

30. A Model for the Rubber-like Behaviour in Cu-Zn-Al Martensites. M. Ahlers, G. Barceló and R. Rapacioli. Scr. Metall., 12 (1978) 1975.

31. The Influence of Short-Range Disorder on the Martensitic Transformation in Cu-Zn and Cu-Zn-Al Alloys. R. Rapacioli and M. Ahlers. Acta Metall., 27 (1979) 777.

32. The Stability of Martensite in Cu-Zn Alloys. M. Ahlers. Z. Metallkd., 70 (1979) 379

33. The Stress Induced Phase Transformation in Martensitic Single Crystals of CuZnAl Alloys. G. Barceló, M. Ahlers and R. Rapacioli. Z. Metallkd., 70 (1979) 732.

34. The Stability of Martensite in Binary Cu-Zn Alloys. M. Ahlers. Proc. ICOMAT 1978. Cambridge, Mass., USA p. 271.

35. The Stress Induced Transformation Between Orthorhombic and Face Centered Martensite in CuZn Alloys. M. Ahlers, G. Barceló and R. Rapacioli. Proc. ICOMAT 1978. Cambridge, Mass., USA. p. 277.

36. The Influence of Cycling on the Rubberlike Behavior in CuZnAl Martensite. M. Ahlers and G. Barceló. Proc. ICOMAT 1978. Cambridge, Mass., USA. p. 649.

37. Diffraction Effects in Beta-Cu-Zn-Al.Observation and Interpretation of Extra Maxima. F. Lovey, M. Chandrasekaran, R. Rapacioli and M. Ahlers. Z. Metallkd., 71 (1980) 37.

38. Internal Friction in Quenched Beta Phase CuZn and CuZnAl alloys. A. Ghilarducci and M. Ahlers. Scr. Metall., 14 (1980) 1341.

39. The Influence of DO3Order on the Martensitic Transformation in CuZnAu and CuZnAl Alloys. M. Ahlers, Z. Metallkd., 71 (1980) 704.

40. Omega and the Martensitic Transformation in Zr-10Nb and Zr-10Nb-1Al. J.C. Bolcich, H.A. Peretti and M. Ahlers, J. Nucl. Mater., 95 (1980) 311.

41. Martensite Transformations. M. Ahlers. Workshop on Condensed Matter, Bariloche, 1980. p. 24.

42. Diffraction Effects in Beta-Cu-Zn-Al. II. Analysis of Surface Martensite Particles. F.C. Lovey, M. Chandrasekaran and M. Ahlers. Z. Metallkd., 72 (1981) 43.

43. On the Stability of the Equilibrium Alpha and Beta Phases in Cu-Zn. M. Ahlers. J. Phys., F, 11 (1981) 1775.

44. Anelastic Effects in Single Crystyals of Beta-Cu-Zn and Beta-Cu-Zn-Al Alloys. A. Ghilarducci de Salva and M.Ahlers. J. Phys., Colloq., 42 (1981) C5-1001.

45. Stress Induced Hexagonal Martensite in Cu-Zn-Al. G. Barceló and M. Ahlers. Scr. Metall., 16 (1982) 1.

46. Crystallographic Theories of Martensite Transformations. M. Ahlers. Int. Summer Course on Martensitic Transformations-ICOMAT 82. Leuven, Belgium (6-7 August 1982).

47. Pair Interchange Energies and Their Structure Dependence in Cu-Zn. M. Ahlers. J. Phys., Colloq., 43 (1982) C4-115.

48. Crystallography Analysis of Martensites in Zr-Nb-Al. H.A. Peretti, J.C. Bolcich and M. Ahlers. J. Phys., Colloq., 43(1982) C4-303.

49. An 18R to Hexagonal Transformation in CuZnAl. M. Sade, R. Rapacioli, F. Lovey and M. Ahlers. J. Phys., Colloq., 43 (1982) C4-647.

50. The Effect of Thermal Treatments on the Martensitic Transformation in Cu-Zn-Al Alloys. A. Abu Arab and M. Ahlers. J. Phys., Colloq., 43 (1982) C4-709.

51. On the Stability of Surface Martensite in Beta-Phase Cu-Zn Alloys. F.C. Lovey, J. Ferron, L.S. De Bernardez and M. Ahlers. Scr. Metall., 17 (1983) 501.

52. Internal Friction and Point Defects in Ordered Beta-Cu-Zn and Beta-Cu-Zn-Al. A. Ghilarducci and M. Ahlers. J. Phys., F, 13 (1983) 1757.

53. Martensite Ageing and its Stabilization in Cu-Zn-Al Shape Memory Alloys. A. Abu Arab, M. Chandrasekaran and M. Ahlers. Scr. Metall., 18 (1984) 709.

54. Ageing Behavior in the Martensitic and the bcc Phases of Cu-Zn-Al Single Crystals. A. Abu Arab, M. Chandrasekaran and M. Ahlers. Scr. Metall., 18 (1984) 1125.

55. Fatigue in Cu-Zn-Al Single Crystals. M. Sade, R. Rapacioli and M. Ahlers. Acta Metall., 33 (1985) 487.

56. Low Temperature Fatigue in Cu-Zn-Al Single Crystals. M. Sade and M. Ahlers. Scr. Metall., 19 (1985) 425.

57. Phase Transformations in the Solid State: The Martensitic Transformation. Int. Course on Materials Science. Cali, Colombia (Nov. 1985).

58. Shape Memory Alloys. M. Ahlers. Rev. Latinoam. Metalurgia y Materiales, 6 (1986) 3.

59. Phase Relationships and Stabilities of the Alpha, the Beta and Various Martensitic Phases in Brasses. M. Ahlers. "Noble Metal Alloys", ed. T.B. Massalski et al., Metallurgical Soc., USA, 1986. p. 87.

60. Martensite and Equilibrium Phases in Cu-Zn and Cu-Zn-Al Alloys. M. Ahlers. Prog. Mater. Sci., 30 (1986) 135.

61. The Stabilization of Martensite in Cu-Zn-Al Alloys. M. Ahlers. Proc. ICOMAT 1986. Nara, Japan. p. 786.

62. Fatigue in Cu-Zn-Al Single Crystals Stressed in Compression. M. Sade, F. Lovey and M. Ahlers. Proc. ICOMAT 1986. Nara, Japan. p. 934.

63. Phase Stability and the Martensitic Transformation in Cu-Zn Alloys. R. Romero and M. Ahlers. J. Phys., F, 18 (1986) 563.

64. The Stabilization of Martensite in Cu-Zn-Al Alloys. A. Abu Arab and M. Ahlers. Acta Metall., 36 (1988) 2627.

65. Plasticity in Beta Phase Cu-Zn-Al Alloys. R. Romero, F. Lovey and M. Ahlers. Philos. Mag., 58 (1988) 881.

66. On the Martensitic Transformation Temperature and its Stress Dependence in Cu-Zn and Cu-Zn-Al Single Crystals. R. Romero and M. Ahlers. J. Phys. Condens. Matter, 1 (1989) 3191.

67. The Influence of Beta-Phase Plastic Deformation on the Martensitic Transformation in Cu-Zn-Al Single Crystals. R. Romero and M. Ahlers. Philos. Mag, A, 59 (1989) 1103.

68. Thermal Properties of the Martensitic Transformation of Cu-Zn and Cu-Zn-Al Shape Memory Alloys. A. Planes, R.Romero and M. Ahlers. Scr. Metall., 23 (1989) 989.

69. Influence of Neutron Irradiation on the Martensitic Transformation in 18R Cu-Zn-Al Single Crystals. A. Tolley and M. Ahlers. Scr. Metall., 23 (1989) 2117.

70. Materiales con Memoria de Forma. M. Ahlers. Ciencia Hoy, 2 (1991) 24.

71. The Stability of the Martensitic Phases in Cu-Zn-Al at an Electron Concentration of 1.534. J.L. Pelegrina and M. Ahlers. Acta Metall. Mater., 38 (1990) 293.

72. The Effect of Beta Phase Plastic Deformation on Martensitic Transformation in Cu-Zn and Cu-Zn-Al Single Crystals. R. Romero, F. Lovey and M. Ahlers. Scr. Metall. Mater., 24 (1990) 285.

73. The Stabilization of 6R Martensite in Cu-Zn-Al Single Crystals. F. Saule, A. Tolley and M. Ahlers. Scr. Metall. Mater., 24(1990) 363.

74. On the Origin of the Intrinsic Thermoelasticity Associated with a Single-interface Transformation in Cu-Zn-Al Shape-Memory Alloys. F.C. Lovey, A.Amengual, V.Torra and M. Ahlers. Philos. Mag. A, 61 (1990) 159.

75. The Martensitic Transition Temperature in Ternary Cu-Zn-Al Alloys. Influence of the L21Structure. A. Planes, R. Romero and M. Ahlers. Acta Metall. Mater., 38 (1990) 757.

76. Plasticity of Close Packed Long-range Ordered Cu-Zn-Al Shape Memory Alloys. A. Cuniberti, R. Romero and M. Ahlers. Proc. ICSMA 9, 1991, Haifa, Israel, ed. D.G. Brandon et al., Freund Publ., London, 1991.  p.239. 

77. The Influence of Dislocations on the Martensitic Transformations in Shape Memory Cu-Zn-Al Alloys. M. Ahlers, F.C. Lovey and M. Sade. Proc. ICSMA 9, 1991, Haifa, Israel, ed. D.G. Brandon et al., Freund Publ., London, 1991. p. 1033.

78. The Plastic Deformation of Long Range Ordered 18R Martensitic Single Crystals of Cu-Zn-Al Alloys. A. Cuniberti, R. Romero and M. Ahlers. Scr. Metall.Mater., 26 (1992) 495.

79. The Stabilization of 18R and 2H Martensites in Cu-Zn-Al Alloys with an Electron Concentration e/a = 1.534. J.-E. Bidaux and M. Ahlers. J. Phys., IV, Colloq. C4, 1 (1992) 211.

80. The Martensitic Phases and their Stability in Cu-Zn and Cu-Zn-Al Alloys. I: The Transformation between the High Temperature Beta Phase and the 18R Martensite. Overview No.101. J.L. Pelegrina and M. Ahlers. Acta Metall. Mater., 40 (1992) 3205.

81. The Martensitic Phases and their Stability in Cu-Zn and Cu-Zn-Al Alloys. II: The Transformation between the Close Packed Martensitic Phases. Overview No. 101. M. Ahlers and J.L. Pelegrina. Acta Metall. Mater., 40 (1992) 3212.

82. The Martensitic Phases and their Stability in Cu-Zn and Cu-Zn-Al Alloys. III: The Transformation between the High Temperature Phase and the 2H Martensite. Overview No. 101. J.L. Pelegrina  and M. Ahlers. Acta Metall. Mater., 40 (1992) 3221. 

83. The Martensitic Phases and their Stability in Cu-Zn and Cu-Zn-Al Alloys. IV: The Influence of Lattice Parameter Changes and Evaluation of Phase Stabilities. Overview No. 101. F. Saule, M. Ahlers, F. Kropff and E.B. Rivero. Acta Metall. Mater., 40 (1992) 3229.

84. Stacking Fault Energy and Phase Stability in Long-range Ordered Cu-Zn-Al Alloys. M. Ahlers. Phys. Status Solidi B, 172 (1992) 65.

85. Crystallography of Stress-induced Martensite to Martensite Transformations in Cu-Zn-Al Alloys. J.-E. Bidaux and M. Ahlers. Z. Metallkd., 83 (1992) 310.

86. Phase Stability and Martensitic Transformation in Cu-Zn and Cu-Zn-Al Single Crystals. M. Ahlers, J.L. Pelegrina and F. Saule. Proc. XV Conf. on Applied Crystallography, Cieszyn, Poland (9-12 Aug. 1992) World Scientific Publishing Co., 1993, p.62.

87. Irradiation Effects on the Beta « 18R Martensitic Transformation in CuZnAl Alloys. A. Tolley and M. Ahlers. J. Nucl. Mater., 205 (1993)339.

88. Martensite and Equilibrium Phases in Hume-Rothery Noble Metals Alloys. M. Ahlers. J. Phys., Condens. Matter, 5 (1993) 8129.

89. High Temperature Plasticity and the Martensitic Transformation in Long Range Ordered Alloys. M. Ahlers. Philos. Mag.A, 70 (1994) 247.

90. The Post-Quench Vacancy Behaviour in Beta-Cu-Zn-Al Alloy. W. Salgueiro, R. Romero, A. Somoza and M. Ahlers. Phys. Status Solidi A, 138 (1993) 111.

91. Phase Stability and the Martensitic Transformation in the Noble Metals. M. Ahlers. Proc.Int.Symp. on Shape Memory Materials, Internat. Academic Publ., Beijing, 1994, p.70.

92. The Two Way Shape Memory Effect in Deformed Cu-Zn-Al Alloys. M. Ahlers, E.Cingolani and M.Sade. Proc.Int.Symp. on Shape Memory Materials, Internat. Academic Publ., Beijing, 1994, p.338.

93. On the Usefulness of the Martensitic Transformation for the Evaluation of Phase Stabilities and Dislocation Properties in Long Range Ordered Alloys. M. Ahlers. J.de Physique IV, 5-C2 (1995) 35.

94. The Two Way Shape Memory Effect in Cu-Zn-Al Single Crystals. Role of Dislocations and Stabilization. E.Cingolani, M. Ahlers and M.Sade. Acta Metall.Mater.,43 (1995) 2451.

95. Crystallography and Stability of Martensitic Phases in Cu-Zn-Al Shape Memory Alloys. M.Ahlers and F.Saule. Proc. XVI Int. Conf. on Applied Crystallography, eds. H.Morawiec and D. Stroz, World Scientific (1995) p.219.

96. Stability, Stabilization and Lattice Parameters in Cu-Zn-Al Martensites. F.Saule and M. Ahlers. Acta Metall.Mater., 43 (1995) 2373.

97. The Temperature Degradation of the Two Way Shape Memory Effect Induced by Stabilization. E. Cingolani and M. Ahlers. Scr. Metall. Mater.,33 (1995) 1375.

98. The Hume-Rothery Rules and Phase Stabilities in Noble Metal Alloys. M. Ahlers. Zeitschr. Phys. B, 99 (1996) 491.

99. Phase Stability of Martensitic Structures. M. Ahlers. J.de Physique IV, 5-C8 (1995) 71.

100. The Two Way Shape Memory Effect in Stabilized and Pseudoelastically Trained Cu-Zn-Al Single Crystals. E. Cingolani, A. Yawny and M. Ahlers. J.de Physique IV, 5-C8 (1995) 865.

101. The Dezincification of Alpha Cu-Zn. H.E. Troiani, J.L. Pelegrina and M. Ahlers. Phys. Status Solidi A, 156 (1996) 93.

102. Surface Study of Dezincified Alpha Cu-Zn Alloys by Scanning Electron Microscopy and Atomic Force Microscopy. H.E. Troiani, E.A. Sánchez, J.L. Pelegrina and M. Ahlers. Acta Microscopica, 5 (1996) 374.

103. Diffusion in Martensite: Stabilization, Ferroelasticity and Two Way Memory Behavior in Cu-Zn-Al Single Crystals. M. Ahlers, J.A. Giampaoli and E. Cingolani. Proc. Int. Conf. Displacive Phase Transformations and Their Applications in Materials Engineering Urbana, IL, USA (8-9 May,1996) Eds. K.Inoue et al., The Minerals, Metals & Materials Society, 1998. p.439.

104. The Plastic Deformation of 18R Long Range Ordered Cu-Zn-Al Single Crystals: The Temperature and Strain Rate Dependence of the Critical Stress and the Influence of Dynamic Strain Aging. A. Cuniberti, M. Ahlers and R. Romero. Mater. Sci. Eng. A, 234-236 (1997) 893.

105. The Two Way Shape Memory Effect in Stabilized Cu-Zn-Al Single and Polycrystals. P. Arneodo Larochette, E. Cingolani, A. Yawny and M. Ahlers. J.de Physique IV, 7-C5 (1997) 495.

106. Stabilization and Two Way Shape Memory Effect in Cu-Al-Ni Single Crystals. E. Cingolani, J. Van Humbeeck and M. Ahlers. Metall. Mater.Trans.A, 30 (1999) 493.

107. Ferroelasticity or Rubber Like Behaviour in Stabilized Cu-Zn-Al Single Crystals. J.A. Giampaoli, J.L. Pelegrina and M. Ahlers. Acta Mater., 46 (1998) 3333.

108. Surface and Structural Modifications Induced by the Dezincification of the Alpha and Beta Phases of Cu-Zn. H.E. Troiani, J.L. Pelegrina and M. Ahlers. Proc. XVII Int. Conf. on Applied Crystallography, eds. H.Morawiec and D. Stroz, World Scientific (1998) p.308.

109.The bcc to fcc Phase Transformation During Dezincification of  Beta Cu-Zn. H.E. Troiani, J.L. Pelegrina and M. Ahlers. Philos.Mag.A, 78 (1998) 1253.

110. Influence of Thermal Treatments on the Long Range Order and the Two Way Shape Memory Effect Induced by Stabilization in Cu-Al-Be Single Crystals. E. Cingolani; R. Stalmans, J. Van Humbeeck and M. Ahlers. Mater. Sci. Eng. A, 268 (1999) 109.

111. On the Origin of the Two Way Shape Memory Effect (TWME) in Cu-Zn-Al Single Crystals. E. Cingolani and M. Ahlers. Mater. Sci. Eng. A, 273-275 (1999) 595.

112. The Influence of Long Range Order on the Martensitic Transformation in Cu-Zn. J.E. Garcés and M. Ahlers. Mater. Sci. Eng. A, 273-275 (1999) 195

113. The Formation of an Intermediate Structure During the Dezincification of Beta Cu-Zn Alloys and Its Relevance for the Martensitic Transformation. H.E. Troiani and M. Ahlers. Mater. Sci. Eng. A, 273-275 (1999) 200.

114. Stabilization and the Two Way Shape Memory Effect (TWME) in Cu-Zn-Al Polycrystals. P. Arneodo Larochette, E. Cingolani and M. Ahlers. Mater. Sci. Eng. A, 273-275 (1999) 600.

115. Hydrogen in Ti-Ni-Cu and Cu-Zn-Al Shape Memory Alloys. C. Damiani, J.L. Pelegrina and M. Ahlers. J. Alloys Comp., 284 (1999) 243.

116. On the Stability of Martensitic and Equilibrium Phases in the Noble Metal Alloys. M. Ahlers. Proc. JIMIC-3, The Japan Institute of Metals, 1999, p.831.

117. TEM and HRTEM Study of 4H Precipitates Produced During the Dezincification of Beta Cu-Zn. H.E. Troiani, A. Tolley and M. Ahlers. Proc. JIMIC-3, The Japan Institute of Metals, 1999, p. 1192.

118. High-resolution Transmission Electron Microscopy Study of Small Hexagonal Precipitates Produced During the Dezincification of Beta-CuZn. H.E. Troiani, A. Tolley and M. Ahlers. Philos. Mag.A, 80 (2000) 1379.

119. The Two Way Shape Memory Effect: Influence of Stabilization in Single and Polycrystals of Cu-based Alloys. E. Cingolani, P. Arneodo Larochette and M. Ahlers. Mater. Sci. Forum, 327-328 (2000) 453.

120. Crystallography of Martensite. M. Ahlers. Proc. XVIII Conf. on applied crystallography. Eds.H.Morawiec & D. Stróz, World Scientific, 2001. pp. 137-152.

121. Quenching and Ageing Behaviour of Quaternary Cu-Zn-Al-Ni Single Crystals. E. Zelaya, J.L. Pelegrina and M. Ahlers. J. Phys.IV, 11 (2001) pp.Pr8-147-152.

122. The Martensitic Transformation: Mechanisms and Crystallography. M. Ahlers. Philos. Mag. A, 82 (2002) 1093.

123. Stabilisation of the 2H Martensite in Cu-Zn-Al Single Crystals with e/a = 1.53. P. Arneodo Larochette, A.M. Condó and M. Ahlers. J. Phys. IV, 112 (2003) 515

124. Microestructura y Estabilización de la Fase Martensítica 2H en Aleaciones de Cu-Zn-Al. F. Donati, P. Arneodo Larochette, A. Condó and M. Ahlers. Actas Congreso CONAMET/SAM Simposio Materia 2002. Santiago, Chile (12-15 Nov. 2002). Santiago de Chile, Univ. de Chile, 2002. Vol.1, p. 243.

125. Stability of Martensite in Noble Metal Alloys. M.Ahlers. Mater. Sci. Eng. A, 349 (2003) 120.

126. Ageing of Martensite: Stabilisation and Ferroelasticity in Cu-based Shape Memory Alloys. M. Ahlers and J.L. Pelegrina. Mater.Sci.Eng. A, 356 (2003) 298.

127 . Vacancies and Stabilisation in Martensitic Cu-Zn-Al Single Crystals. J.L. Pelegrina and M. Ahlers. Mater.Sci.Eng., A, 358 (2003)  310.

128. Grain-Size Dependence of the Two-way Shape Memory Effect Obtained by Stabilisation in Cu-Zn-Al Crystals. P. Arneodo Larochette and M. Ahlers. Mater. Sci. Eng. A, 361 (2003) 249.

129. The martensitic transformation. M.Ahlers, Anales de la Academia Nacionalde Ciencias Exactas, Físicas y Naturales (Buenos Aires) Vol. 55 (2003) 73.

130. Stabilization and Ferroelasticity in Cu-Zn Based Martensites. J.L. Pelegrina and M. Ahlers. Scr. Mater., 50 (2004) 213.

131. Influence of a Constant Stress During Isothermal beta Phase Ageing on the Martensitic Transformation in a Cu-Zn-Al Shape Memory Alloy. J.L. Pelegrina and M. Ahlers. Scr. Mater., 50 (2004) 423.

132. The Martensitic Transformation. M. Ahlers. Matéria, 9 (2004)  169 www.materia.coppe.ufrj.br/sarra/artigos/artigo10308.

133. Relación entre la Estabilidad de la Fase Martensítica 2H y la Temperatura de Descomposición en Aleaciones de CuZnAl. P. Arneodo Larochette, A.M. Condó and M. Ahlers. Actas Congreso CONAMET/SAM 2004. La Serena, Chile (3-5 Nov.2004) Univ. de La Serena, Chile, 2004. p. 545.

134. Stabilization and ferroelasticity in Cu-Zn based martensites. J.L.Pelegrina and M.Ahlers, Scripta mater. 50 (2004) 213.

135. The Influence of Small Impurity Contents on the Diffusion Controlled Stabilization of Cu-Zn-Al Martensitic Single Crystals. J.L. Pelegrina, M.A. Arribere and M. Ahlers. Scr. Mater., 52 (2005)  541.

136. The martensitic transformation. M.Ahlers (2005) www. materiales-sam.org.ar/sitio/revista/ArtN3.pdf.

137. The martensitic transformation: Mechanisms and stabilities, M.Ahlers in: Solid-Solid Phase Transformations in Inorganic materials '05, eds. J.M.Howe, D.E.Laughlin, J.K. Lee, D.J.Srolovits and U.Dahmen, TMS (The Minerals, Metals and Materials Society) Warrendale, Pa. (2005) 5.

138. Stability and stabilisation of 2H martensite in Cu-Zn-Al single crystals. P.Arneodo Larochette, A.M.Condó and M.Ahlers, Phil. Mag. 85 (2005) 2491.

139. On the stability of the martensitic phases in Cu-Zn-Al, and its relationship with the equilibrium phases, P.Arneodo Larochette, A.M. Condó, J.L.Pelegrina and M.Ahlers, Materials Science and Engineering A 438-440 (2006) 747-750.

140. Martensitic transformation and plastic deformation: A comparison. M.Ahlers, M Ahlers - Smart materials and structures, 2007, 16 (1). doi:10.1088/0964-1726/16/1/S12.

141. Helical dislocations as vacancy sinks in ß phase Cu-Zn-Al alloys, G.D.Serrano, J.L.Pelegrina, A.M. Condó and M.Ahlers, Materials Science and Engineering A 433 (2006) 149-154.

142. The martensitic transformation in the Cu-Zn based shape memory alloys as a tool for the evaluation of transformation mechanisms and phase stabilities. M.Ahlers, Materials science and engineering a, 2008, 481-482 (1-2 C), 500–503. doi:10.1016/j.msea.2007.02.136.

143. Phase stability in Cu-Zn based ternary alloys with elements of column 14. J.L. Pelegrina, M.V.Castro Riglos and M.Ahlers, ESOMAT 06, Materials science and engineering a, 2008, 481-482 (1-2 C), 504–508. doi:10.1016/j.msea.2007.01.185.

Link a la nota principal:  “Un homenaje desde el Balseiro a la vida y el legado científico de Manfred Ahlers” (19/04/2022)