The Austrian miracle - revisited. Testing eight explanations for high growth and maybe a ninth.

Zagler, Martin

January 2000

This paper is a first attempt to empirically evaluate some competing hypotheses for the Austrian growth performance. We find that the real appreciations, gross investment, a low duration of unemployment and high youth employment exhibit a significant influence on economic growth. This validates the hard currency policy hypothesis, the macroeconomic management hypothesis, and the microinstitutions hypothesis, whilst all other fail according to this exercise. In particular, we find the Schulmeister-thesis of loose money and the deficit spending hypothesis are even counterfactual. Summarizing, we find that economic policy had its share in promoting growth in the Austrian economy. As a byproduct from our analysis, we find that low levels of unemployment have a significant and positive impact on the growth rate of real GDP, which calls for further theoretical research in this direction. (author's abstract) / Series: Working Papers Series "Growth and Employment in Europe: Sustainability and Competitiveness"

JEL O47, O53

Rheological and mechanical development of a fiber-reinforced concrete for an application in civil engineering

Funke, Henrik L., Gelbrich, Sandra, Ehrlich, Andreas, Kroll, Lothar

28 August 2015

In the course of revitalizing the Poseidon Building in Frankfurt, an energetically optimized façade, made of an architectural concrete was developed. The development of a fiber-reinforced architectural concrete had to consider the necessary mechanical strength, design technology and surface quality. The fiber-reinforced architectural concrete has a compressive strength of 104.1 MPa and a 3-point bending tensile strength of 19.5 MPa. Beyond that, it was ensured that the fiber-reinforced high-performance concrete had a high durability, which has been shown by the capillary suction of de-icing solution and freeze thaw test with a weathering of abrasion of 113 g/m² after 28 freeze-thaw cycles and a mean water penetration depth of 11 mm.

Rheologie

Beton

Technische Universität Chemnitz

Publikationsfonds

fiber-reinforced concrete

rheology

CDF-Test

highperformance concrete

Technische Universität Chemnitz

Publication funds

ddc:620

Rheologie

Beton

A Fiber-Reinforced Architectural Concrete for the Newly Designed Façade of the Poseidon Building in Frankfurt am Main

Funke, Henrik L., Gelbrich, Sandra, Ehrlich, Andreas, Kroll, Lothar

08 July 2014

In the course of revitalizing the Poseidon Building in Frankfurt, an energetically optimized façade, made of architectural concrete was developed. The development of a fiber-reinforced architectural concrete had to consider the necessary mechanical strength, design technology and surface quality. The fiber-reinforced architectural concrete has a compressive strength of 104.1 MPa and a 3-point bending tensile strength of 19.5 MPa. Beyond that, it was ensured that the fiber-reinforced high-performance concrete had a high durability, which has been shown by the capillary suction of de-icing solution and freeze thaw test with a weathering of abrasion of 113 g/m² after 28 freeze-thaw cycles and a mean water penetration depth of 11 mm.

Faserbeton

Architekturbeton

Poseidon-Haus

Revitalisierung

Technische Universität Chemnitz

Publikationsfonds

fiber-reinforced concrete

durability

CDF-Test

high-performance concrete

Technische Universität Chemnitz

Publication funds

ddc:629

Faserbeton

Rheological and mechanical development of a fiber-reinforced concrete for an application in civil engineering

Funke, Henrik L., Gelbrich, Sandra, Ehrlich, Andreas, Kroll, Lothar

28 August 2015

In the course of revitalizing the Poseidon Building in Frankfurt, an energetically optimized façade, made of an architectural concrete was developed. The development of a fiber-reinforced architectural concrete had to consider the necessary mechanical strength, design technology and surface quality. The fiber-reinforced architectural concrete has a compressive strength of 104.1 MPa and a 3-point bending tensile strength of 19.5 MPa. Beyond that, it was ensured that the fiber-reinforced high-performance concrete had a high durability, which has been shown by the capillary suction of de-icing solution and freeze thaw test with a weathering of abrasion of 113 g/m² after 28 freeze-thaw cycles and a mean water penetration depth of 11 mm.

info:eu-repo/classification/ddc/620

ddc:620

Rheologie; Beton

A Fiber-Reinforced Architectural Concrete for the Newly Designed Façade of the Poseidon Building in Frankfurt am Main

Funke, Henrik L., Gelbrich, Sandra, Ehrlich, Andreas, Kroll, Lothar

January 2014

In the course of revitalizing the Poseidon Building in Frankfurt, an energetically optimized façade, made of architectural concrete was developed. The development of a fiber-reinforced architectural concrete had to consider the necessary mechanical strength, design technology and surface quality. The fiber-reinforced architectural concrete has a compressive strength of 104.1 MPa and a 3-point bending tensile strength of 19.5 MPa. Beyond that, it was ensured that the fiber-reinforced high-performance concrete had a high durability, which has been shown by the capillary suction of de-icing solution and freeze thaw test with a weathering of abrasion of 113 g/m² after 28 freeze-thaw cycles and a mean water penetration depth of 11 mm.

info:eu-repo/classification/ddc/629

ddc:629

Faserbeton