職業訓練に関する教科書との比較による2008年(平成20年)改訂学習指導要領に準拠した技術科教科書の技能の内容分析　　　　　　　　　　　　　　　
小祝達朗; 大谷忠; 野崎英明; 坂本智
日本産業技術教育学会誌, Jun. 2019, [Reviewed]

技術科における製作品の丈夫さに関する学習のための光弾性教材の開発　　　　　　　　　　　　　　　
松本亮; 佐久間博志; 小祝達朗; 野崎英明
茨城大学教育学部紀要（教育科学）, Jan. 2019

Analysis of stress field in a single anisotropic diamond/square shaped inclusion using the volume integral equation method and the numerical equivalent inclusion method
Jungki Lee; Hideaki Nozaki; Hyungsoon Lee, A volume integral equation method (VIEM) is used to study elastostatic problems in an unbounded elastic solid containing a single diamond/square shaped inclusion subject to uniform tensile stress at infinity. The inclusion is assumed to be a long parallel diamond/square cylinder composed of isotropic or anisotropic elastic materials and perfectly bonded to the isotropic matrix. The solid is assumed to be under plane strain on the plane normal to the cylinder. A detailed analysis of the stress field at the interface between the isotropic matrix and the single isotropic/orthotropic diamond/square shaped inclusion is carried out. The effects of a single isotropic/orthotropic diamond/square shaped inclusion on the stress field at the interface between the matrix and the inclusion are investigated in detail. The accuracy of the volume integral equation method for the interfacial stress field is validated and compared by the numerical equivalent inclusion method (NEIM) and the finite element method (FEM) using ADINA. Through detailed analysis of plane elastostatic problems using the parallel volume integral equation method (PVIEM) in an unbounded isotropic matrix with multiple isotropic diamond shaped inclusions under uniform remote tensile loading, it is demonstrated that the volume integral equation method can also be applied to solve general two- and three-dimensional elastostatic problems involving multiple isotropic/anisotropic inclusions whose shape and number are arbitrary., Taylor and Francis Ltd.
Composite Interfaces, 04 Mar. 2018, [Reviewed]

中学校技術科金属加工学習のための飲料用アルミニウム缶矯正装置の開発
小祝達朗; 久松宏紀; 川崎裕典; 野崎英明, College of Education, Ibaraki University
茨城大学教育学部紀要（教育科学）, Mar. 2017

Verification of the Students' Safety Capability Developed by the Hazard Prediction Activities in the Classes of" Technology of Materials and Their Processing" in Junior High School Technology Education
IDENO Hiroshi; NOZAKI Hideaki; USUZAKA Takashi; TAKENO Hidetoshi
茨城大学教育学部紀要（教育科学）, 28 Mar. 2016

Proposal of a Class Model for the Improvement of the Safety Instruction in the area of Technology of Materials and their Processing in Junior High School Technology Education
IDENO Hiroshi; NOZAKI Hideaki; KUDO Yuji; TAKENO Hidetoshi, College of Education, Ibaraki University
茨城大学教育学部紀要. 教育科学, 2015

中学校技術科金属加工学習のためのスチール缶矯正装置の開発
川﨑裕典; 小祝達朗; 野崎英明, College of Education, Ibaraki University
茨城大学教育学部紀要（教育科学）, 2014

Survey Research on the Current State of Instruction in Junior High School Technology Education under the New Course of Study
Takahiro FUJII; Takashi USUZAKA; Hideaki NOZAKI, 日本産業技術教育学会
日本産業技術教育学会誌, 30 Sep. 2013, [Reviewed]

Proposal of a design learning for junior high school technology education using the finite element method　　　　　　　　　　　　　　　
Hideaki Nozaki; Koushi Ueno; Hidetoshi Takeno
Bulletin of the College of Education, Ibaraki University, 2012

Development of an Educational Tool for the Understanding of "Bending of Beams"
NOZAKI Hideaki; MOTOHASHI Satoshi; UENO Koushi; TAKENO Hidetoshi, 日本産業技術教育学会
Journal of the Japan Society of Technology Education, 26 Dec. 2011, [Reviewed]

Analysis of Diffraction Elastic Constants of Poly-Crystalline Materials by Numerical Equivalent Inclusion Method
Hideaki Nozaki, In the residual stress measurement by X-ray or neutron diffraction, the diffraction elasticconstants are essential to determine the stresses from measured lattice strains. Since thelattice strains of a particular lattice plane in the crystal grains are measured selectively, thediffraction elastic constants are different from the macroscopic constants of polycrystallinematerials. The diffraction elastic constants of a polycrystalline material can be calculatedfrom the elastic constants of a single crystal by use of the self-consistent method. In theself-consistent analysis, the shapes of crystal grains are usually assumed to be spherical forsimplicity. However, the real crystal grains have polyhedron-like shapes as the result ofpolycrystalline growth. In this paper, we propose a new method for determining thediffraction elastic constants of the polycrystalline materials consisting of polyhedral crystalgrains by the numerical equivalent inclusion method (NEIM). As a numerical example, thediffraction elastic constants of a polycrystalline material consisting of cubic crystal grainsare calculated and the effects of the grain's shape are investigated in detail., College of Education, Ibaraki University
Bulletine of the College of Education, Ibaraki University (Natural Science), Mar. 2010

Analysis of Macroscopic Elastic Stiffness of Heterogeneous Materials by Numerical Equivalent Inclusion Method
Hideaki Nozaki, College of Education, Ibaraki University
Bulletin of the College of Education, Ibaraki University (Natural Science), Mar. 2009

A Learning of Information and Communication Network to Teach Information Ethics in Junior High School Technology Education
Osamu Kato; Hideaki Nozaki, Center for General Educationcal Practice of the College of Education, Ibaraki University
茨城大学教育実践研究, Oct. 2008

A Numerical Equivalent Inclusion Method Using the Solution of Polyhedral Inclusions
Tadashi Nakai; Hideaki Nozaki, College of Education, Ibaraki University
Bulletin of the Colledge of Education Ibaraki University, Mar. 2008

New Numerical Equivalent Inclusion Method Using the Solution of Polygonal Inclusions
Hideaki Nozaki, 茨城大学教育学部
Bulletin of the College of Education, Ibaraki University (Natural Science), Mar. 2006

Development of a Simple Electric Furnace for Casting Practices in Junior High School Technology Education
Hideaki Nozaki; Hidetoshi Takeno, 茨城大学教育学部
Bulletin of the Colledge of Education Ibaraki University, Mar. 2005

Special Properties of a Regular Polygonal Inhomogeneity in an Infinite Body
Nozaki Hideaki, 茨城大学教育学部
Bulletin of the Faculty of Education Ibaraki University (Natural Science), Mar. 2004

Development and Practice of an Efficient Marking-Off Method for thhe Study of Metalworking in Junior High School　　　　　　　　　　　　　　　
Toshiyuki Tamura; Hideaki Nozaki
茨城大学教育実践研究, Mar. 2004

Boundary Element Analysis for Elastic Wave Scattering in a Fiber-Reinforced Composite with Partially Debonded Fibers
Hideaki Nozaki, 茨城大学教育学部
Bulletin of the Faculty of Education Ibaraki University (Natural Science), Mar. 2003

Thermal Conductivity of a Composite with Polyhedral Particles
Hideaki Nozaki, 茨城大学教育学部
Bulletin of the Faculty of Education Ibaraki University (Natural Science), Mar. 2003

Elastic Fields in a Polyhedral Inclusion with Uniform Eigenstrains and Related Problems
Hideaki Nozaki; Minoru Taya, In this paper, the elastic field in an infinite elastic body containing a polyhedral inclusion with uniform eigenstrains is investigated. Exact solutions are obtained for the stress field in and around a fully general polyhedron, i.e., an arbitrary bounded region of three-dimensional space with a piecewise planner boundary. Numerical results are presented for the stress field and the strain energy for several major polyhedra and the effective stiffness of a composite with regular polyhedral inhomogeneities. It is found that the stresses at the center of a polyhedral inclusion with uniaxial eigenstrain do not coincide with those for a spherical inclusion (Eshelby's solution) except for dodecahedron and icosahedron which belong to icosidodeca family, i.e., highly symmetrical structure., ASME-AMER SOC MECHANICAL ENG
Trans. ASME Journal of Applied Mechanics, 2001, [Reviewed]

Stress Field Caused by Polygonal Inclusion
Hideaki Nozaki; Tadatoshi Horibe; Minoru Taya, In this paper, we analyze the elastic field caused by an arbitrary polygonal inclusion (with uniform eigenstrain prescribed) in an infinite elastic solid. Closed-form solutions are obtained using Green's function technique. Numerical calculations are performed for the strain and stress distributions in and around a regular polygonal inclusion. It is shown that logarithmic-type stress singularity at each corner of the inclusion may vanish only for a square inclusion of a specific orientation. Unique properties of the Eshelby tensor of a regular polygonal inclusion found by Nozaki and Taya [AS-ME J. Appl. Mech., Vol. 64, 1997, pp. 495-502] are also investigated in detail and the terms that cause the properties are specified., JAPAN SOC MECHANICAL ENGINEERS
JSME International Journal, 2001, [Reviewed]

Eshelby Tensor of a Polygonal Inclusion and Its Special Properties
Mishio Kawashita; Hideaki Nozaki, Nozaki and Taya (ASME J. Appl. Mech. 64 (1997) 495-502) analyzed the elastic field in a convex polygonal inclusion in an infinite body. By numerical analysis, they found that, when the shape of the inclusion is a regular polygon, "the strain at the center of inclusion" and "the strain energy per unit volume of inclusion" have strange and remarkable properties: these values are the same as those of a circular inclusion and are invariant for inclusion's orientation if the shape of the inclusion is not a square. In this paper, we first derive a simple, exact expression of the Eshelby tensor for an arbitrary polygonal inclusion. Using the expression, we then show a mathematical explanation why these special properties appear., KLUWER ACADEMIC PUBL
Journal of Elasticity, 2001, [Reviewed]

Internal Stress and Strain Energy Yielded by γ→ε Martensitic Transformation in a Polycrystalline Ferrous Alloy
Hideaki Nozaki; Yo Tomota, The stress distribution and strain energy have been calculated for two shapes of inclusions, i.e., an oblate spheroid and a hexagonal plate bearing identical uniform transformation strains associated with gamma(fcc) --> epsilon(hcp) martensitic transformation in a high Mn ferrous alloy. The stress distribution within the inclusion is constant for the spheroid but shows a maximum near the interface and decreases gradually with a distance from the interface for the hexagonal plate. The stress concentration behavior at the tip of the inclusion is different from each other for these two shapes. The influences of the plate thickness on the stress distribution and strain energy are computed and the results suggest that the hexagonal plate is more realistic in order to discuss the improvement of shape memory effect by alloying or training treatment., JAPAN INST METALS
Material Transactions, JIM, 2000, [Reviewed]

Effect of Interface Layers on Elastic Wave Propagation in a Fiber-Reinforced Metal-Matrix Composite
Hideaki Nozaki; Yasuhide Shindo, This study considers the scattering of P and SV waves in SiC fiber-reinforced Al composite with interfacial layers. The fibers are assumed to be parallel to each other and randomly distributed with a statistically uniform distribution. We assume same-size fibers and same-thickness layers with nonhomogeneous elastic properties. The scattering of time harmonic P and SV waves by a cylindrical inclusion with a nonhomogeneous interface layer is analyzed and the results of the single scattering problem are applied to the composite medium. Numerical values of scattering cross-sections, phase velocities and attenuations of coherent plane waves, and effective in-plane elastic constants are obtained for a moderately wide range of frequencies. The numerical results show significant dependence on parameters containing fiber volume fraction and interface properties. (C) 1998 Elsevier Science Ltd. All rights reserved., PERGAMON-ELSEVIER SCIENCE LTD
International Journal of Engineering Science, 1998, [Reviewed]

Elastic Fields in a Polygon-Shaped Inclusion with Uniform Eigenstrains
Hideaki Nozaki; Minoru Taya, In this paper the elastic fields in an arbitrary, convex polygon-shaped inclusion with uniform eigenstrains are investigated under the condition of plane strain. Closed-form solutions are obtained for the elastic fields in a polygon-shaped inclusion. The applications to the evaluation of the effective elastic properties of composite materials with polygon-shaped reinforcements are also investigated for both dilute and dense systems. Numerical examples are presented for the strain field, strain energy and stiffness of the composites with polygon shaped fibers. The results are also compared with some existing solutions., ASME-AMER SOC MECHANICAL ENG
Trans. ASME Journal of Applied Mechanics, 1997, [Reviewed]

Effect of Interface Layers on Elastic Wave Propagation in a Metal Matrix Composite Reinforced by Particles
Yasuhide Shindo; Hideaki Nozaki; S. K. Datta, This study considers the scattering of compressional and shear waves in SiC-particle-reinforced Al composite with interfacial layers. We assume same-size inclusions and same-thickness layers with nonhomogeneous elastic properties. The effective complex wave numbers follow from the coherent wave equations which depend only upon the scattering amplitude of the single scattering problem. Numerical values of scattering cross-sections, and phase velocities and attenuations of coherent plane waves are obtained for a moderately wide range of frequencies, and the results are graphed to display the effects of concentration of scatterers and interface properties., ASME-AMER SOC MECHANICAL ENG
Trans. ASME Journal of Applied Mechanics, 1995, [Reviewed]

Elastic Constants of High Temperature Superconductor YBa₂Cu₃Ox
Yasuhide Shindo; Naoki Niwa; Hideaki Nozaki, We calculate the defect-free elastic constants of high temperature ceramic superconductor YBa2Cu3Ox from measured elastic constants of bulk YBa2Cu3Ox which contains numerous microcracks and voids. Defect-free elastic constants represent long-wavelength acoustic phonons and relate to a variety of solid-state-phenomena such as Debye temperature, thermal expansivity and theoretical strength. By the use of the self-consistent method or the differential method, we eliminate the effect of random distribution of microcracks on the elastic constants of YBa2Cu3Ox. The scattered-plane-wave method is also used to eliminate the effect of voids and then obtain the defect-free elastic constants. Numerical calculations are carried out and the influence of the microcracks and the voids on the elastic constants of YBa2Cu3Ox is discussed in detail., JAPAN INST METALS
J. Japan Inst. Metals, 1995, [Reviewed]

Elastic constants and microcracks in YBa₂Cu₃O₇
Yasuhide Shindo; Hassel Ledbetter; Hideaki Nozaki, We analyze theoretically the effect of microcracks and voids on the apparent elastic constants of polycrystalline YBa2Cu3O7. Using measurements by Holcomb and Mayo, we calculate crack density and crack aspect ratio. We obtain reasonable intrinsic elastic constants. For the bulk modulus, for example, we predict values close to these obtained by neutron-diffraction studies: 123 GPa for a polycrystal and 122 GPa for a monocrystal., MATERIALS RESEARCH SOCIETY
Journal of Materials Research, 1995, [Reviewed]

Torsional Singular Stresses in a Thick-Walled Spherical Shell with a Circumferential Edge Crack
Yasuhide Shindo; Yuichi Murakoshi; Hideaki Nozaki, This paper considers the elastostatic torsion problem for a thick-walled spherical shell containing an internal or external circumferential edge crack. Using an integral transform technique, we obtain a singular integral equation of the first kind which has a generalized Cauchy kernel as the dominant part. The integral equation is solved numerically, and the influence of the geometrical configuration on the stress intensity factor is shown graphically in detail., ELSEVIER SCI LTD
International Journal of Pressure Vessels and Piping, 1993, [Reviewed]

Thermal Shock Fracture of Intermetallic Compounds　　　　　　　　　　　　　　　
Hideaki Nozaki; Yasuhide Shindo
Proceedings of 3rd Japan International SAMPE Symposium, 1993, [Reviewed]

Impact Response of a Single Edge Crack in an Orthotropic Strip
Y SHINDO; H HIGAKI; H NOZAKI, The elastodynamic response of a single edge crack in an orthotropic strip under normal impact is considered in this study. The edge crack is oriented in a direction normal to the edge of the strip. Laplace and Fourier transforms are used to reduce the transient problem to the solution of a pair of dual integral equations in the Laplace transform plane. The solution to the dual integral equations is then expressed in terms of a Fredholm integral equation of the second kind. A numerical Laplace inversion routine is used to recover the time dependence of the solution. Numerical values on the dynamic stress intensity factor for several fiber-reinforced composite materials are obtained, and the results are graphed to display the influence of the material orthotropy., ASME-AMER SOC MECHANICAL ENG
Trans. ASME Journal of Applied Mechanics, 1992, [Reviewed]

Impact Response of Symmetric Edge Cracks in an Orthotropic Strip
Yasuhide Shindo; Hiroaki Higaki; Hideaki Nozaki, The elastodynamic response of symmetric edge cracks in an orthotropic strip under normal impact is considered in this study. Two edge cracks perpendicular to the edges of the strip are placed symmetrically. Laplace and Fourier transforms are used to reduce the transient problem to the solution of a pair of dual integral equations in the Laplace transform plane. The solution to the dual integral equations is then expressed in terms of a Fredholm integral equation of the second kind. A numerical Laplace inversion routine is used to recover the time dependence of the solution. The dynamic stress intensity factor is determined and numerical results for some practical materials are shown graphically to display the influence of the material orthotropy., JAPAN SOC MECHANICAL ENGINEERS SANSHIN HOKUSEI BLDG
JSME International Journal, 1991, [Reviewed]

Phase Velocity and Attenuation of Plane Elastic Waves in a Particle-Reinforced Metal Matrix Composite with Interfacial Layers(共著)
SHINDO Yasuhide; NOZAKI Hideaki; KUSUMI Ryuji, Ultrasonic waves provide efficient means for the non-destructive characterization of composite materials. In the present paper, we study phase velocity and attenuation in a metal matrix composite reinforced by particles with interfacial layers. We assume same-size spherical inclusions and same-thickness interface layers with nonhomogeneous elastic properties. The effective complex wave numbers follow from the coherent wave equations which depend only upon the scattering amplitude of the single scattering problem. Numerical results are obtained for a moderately wide range of frequencies, and the effect of interface properties on phase velocities and attenuations of coherent plane waves is discussed in detail., The Japan Society of Mechanical Engineers
Trans. JSME (A), 1991, [Reviewed]

Elastic Wave Propagation in a Metal Matrix Composite with Interfacial Layers
Yasuhide Shindo; Hideaki Nozaki, PERGAMON PRESS LTD
Proceedings of the Sixth International Conference, MECHANICAL BEHAVIOUR OF MATERIALS VI, Pergamon Press, 1991, [Reviewed]

Mode I Stress-Intensity Factor Measurements by the Electrical Strain Gage
Shigeru Kurosaki; Hideaki Nozaki; Syuichi Fukuda, This paper describes the method of determining the Mode I stress-intensity factor (K_I) by using the electrical strain gage. When fracture mechanics is applied to engineering, The stress-intensity factor near the crack tip must be accurately determined by way of a convenient measuring method of the strain. Usually, electrical strain gages are used for the strain measurement of the structure material. Thus the strain gage is used in this study. The type of strain gage used in this study is the chain strain gage consisting of 5 measuring grids. It is used in the experiments which examine the center-cracked test specimens (CCT) and single-edge-cracked plate tension specimens (SECT) as well as the compact-type specimens (CT). The accuracy of the stress-intensity factor (K_I) determined by the experiments is within ±10 percent, compared to the analytical value., The Japan Society of Mechanical Engineers
Trans. JSME (A), 1990, [Reviewed]

単軸五連ひずみゲージによる混合モード応力拡大係数（K_I, K_II）の解析（第１報 直交方向ひずみ測定による方法）
黒崎茂; 野崎英明; 福田収一, 日本非破壊検査協会
非破壊検査, 1990, [Reviewed]

単軸五連式ひずみゲージによる混合モード応力拡大係数（K_I, K_II）の解析（第２報 同一方向ひずみ測定による方法）
黒崎茂; 野崎英明; 福田収一, 日本非破壊検査協会
非破壊検査, 1990, [Reviewed]

Impact Response of a Single-Edge Crack in An Orthotropic Half-Plane
Hiroaki Higaki; Yasuhide Shindo; Hideaki Nozaki, The elastodynamic response of a single-edge crack in a semi-infinite orthotropic medium is considered in this study. The crack is oriented in a direction normal to the edge of the half-plane. Laplace and Fourier transforms are used to reduce the transient problem to the solution of a pair of dual integral equations in the Laplace transform plane. The solution to the dual integral equations in then expressed in terms of a Fredholm integral equation of the second kind. Numerical values on the dynamic stress intensity factor for some fiber-reinforced composite materials are obtained and the results are graphed to display the influence of the material orthotropy., The Japan Society of Mechanical Engineers
Trans. JSME (A), 1988, [Reviewed]

Impact Response of a Transversely Isotropic Cylinder with a Penny-Shaped Crack
Yasuhide Shindo; Hideaki Nozaki, PERGAMON-ELSEVIER SCIENCE LTD
International Journal of Solids and Structures, 1987, [Reviewed]

異種弾性体に接合された円板状き裂を有する円柱の衝撃応答
Hideaki Nozaki; Yasuhide Shindo; Akira Atsumi, This paper is concerned with the axisymmetric ealstodynamic response of a long cylinder with a pennyshaped crack under normal impact, which is bonded to an infinite medium with different elastic constants. The problem is reduced to that of solving a pair of dual integral equations in the Laplace transform domain. Using an integral transform technique, the dual integral equations are further reduced to a Fredholm integral equation of the second kind. The dynamic stress intensity factor is obtained numerically, and the effects of the geometrical configurations and the material properties of the composite material on the dynamic stress intensity factor are shown graphically. Two limiting cases in which the surface of the cylinder is stress free and is fixed are included., The Japan Society of Mechanical Engineers
Trans. JSME(A), 1986, [Reviewed]

Impact Response of a Finite Crack in an Orthotropic Strip
Yasuhide Shindo; Hideaki Nozaki, SPRINGER-VERLAG WIEN
Acta Mechanica, 1986, [Reviewed]

Impact Response of a Cylinder Composite with a Penny-Shaped Crack
Hideaki Nozaki; Yasuhide Shindo; Akira Atsumi, PERGAMON-ELSEVIER SCIENCE LTD
International Journal of Solids and Structures, 1986, [Reviewed]

Impact Response of a Strip Composite with a Finite Crack
H NOZAKI; Y SHINDO; A ATSUMI, PERGAMON-ELSEVIER SCIENCE LTD
Engineering Fracture Mechanics, 1986, [Reviewed]

中学校における材料加工教育の現状
野崎英明; 工藤雄司; 大西有
塑性と加工（日本塑性加工学会誌）, Apr. 2016, [Invited]

中学生に「丈夫な構造」を理解させるための光弾性教材の開発
松本亮; 佐久間博志; 野崎英明
茨城大学教育学部紀要（教育科学）, 2014

Development of an Educational Tool for the Understanding of “Sturdy Structures” in Junior High School Technology Education
Yuhei TAKEUCHI; Ryo Matsumoto; Hideaki NOZAKI
Bulletin of the College of Education, Ibaraki University (Educational Science), 2013

中学校技術科内容 A における 3DCAD の活用に関する研究　　　　　　　　　　　　　　　
栗田竜輔,野崎英明
日本産業技術教育学会第34回関東支部大会, 11 Dec. 2022, 日本産業技術教育学会 関東支部
20221211, 20221211

技術科における社会科との連携に向けた学習内容の分析　　　　　　　　　　　　　　　
齋藤ゆか,小祝達朗,野崎英明
日本産業技術教育学会第33回関東支部大会（神奈川）, 12 Dec. 2021, 日本産業技術教育学会
20211212, 20211212

技術科と社会科の学習内容の関連に関する研究　　　　　　　　　　　　　　　
齋藤ゆか,小祝達朗,野崎英明
日本産業技術教育学会第63回全国大会（千葉）, Sep. 2020, 日本産業技術教育学会

技術科加工学習における技能の指導内容と汎用的な能力の育成とのつながり　　　　　　　　　　　　　　　
小祝達朗; 大谷忠; 小貫陽介; 野崎英明; 坂本智
日本産業技術教育学会大31回関東支部大会（茨城）, Dec. 2019, 日本産業技術教育学会

技術科金属切断加工学習を通した汎用的な能力の育成を目指す技能の指導内容の検討　　　　　　　　　　　　　　　
小貫陽介; 小祝達朗; 野崎英明; 坂本智
日本産業技術教育学会大31回関東支部大会（茨城）, Dec. 2019, 日本産業技術教育学会

多目的最適化の視点を取り入れた技術科問題解決学習法の検証　　　　　　　　　　　　　　　
坂口竜之介; 小祝達朗; 大西有; 野崎英明
日本産業技術教育学会大31回関東支部大会（茨城）, Dec. 2019, 日本産業技術教育学会

技術科加工学習における汎用的な能力の育成を目指す技能の指導内容の検討　　　　　　　　　　　　　　　
小祝達朗; 大谷忠; 小貫陽介; 野崎英明; 坂本智
日本産業技術教育学会技術教育分科会, Dec. 2019, 日本産業技術教育学会

生分解性プラスチック製育苗ポット教材の提案　　　　　　　　　　　　　　　
坂口竜之介; 小祝達朗; 大西有; 野崎英明
日本産業技術教育学会第31回関東支部大会（茨城）, Dec. 2019

技術科における金属切断加工学習を通した汎用的な能力の育成を目指した技能学習の検討　　　　　　　　　　　　　　　
小貫陽介; 小祝達朗; 野崎英明; 坂本智
日本産業技術教育学会第62回全国大会（静岡）, Aug. 2019, 日本産業技術教育学会

技術科加工学習における汎用的な能力の育成を目指した技能学習の検討　　　　　　　　　　　　　　　
小祝達朗; 大谷忠; 小貫陽介; 野崎英明; 坂本智
日本産業技術教育学会第62回全国大会（静岡）, Aug. 2019, 日本産業技術教育学会

多目的最適化の視点を取り入れた技術科問題解決学習法の提案　　　　　　　　　　　　　　　
坂口竜之介; 小祝達朗; 大西有; 野崎英明
日本産業技術教育学会第62回全国大会（静岡）, Aug. 2019, 日本産業技術教育学会

技術科金属加工学習における汎用的な能力の育成につながる技能学習の検討　　　　　　　　　　　　　　　
小祝達朗; 大谷忠; 野崎英明; 坂本智
日本産業技術教育学会 第30回関東支部大会（宇都宮）, 09 Dec. 2018, 日本産業技術教育学会

中学校技術科における最適化を考慮した問題解決学習 ーC エネルギー変換の技術に着目してー　　　　　　　　　　　　　　　
坂口竜之介; 小祝達朗; 野崎英明
日本産業技術教育学会 第30回関東支部大会（宇都宮）, 09 Dec. 2018, 日本産業技術教育学会

技術科金属加工学習における技能の指導内容と汎用的な能力の育成との関連について　　　　　　　　　　　　　　　
小祝達朗; 大谷忠; 野崎英明; 坂本智
日本産業技術教育学会 技術教育分科会研究発表会2018, 10 Nov. 2018, 日本産業技術教育学会

技術科金属加工学習における汎用的な能力の育成に繋がる技能の指導内容の検討　　　　　　　　　　　　　　　
小祝達朗; 大谷忠; 野崎英明; 坂本智
日本産業技術教育学会 第61回全国大会（信州）, 26 Aug. 2018, 日本産業技術教育学会

技術科金属加工における実技の遂行結果と能力・態度の関連について　　　　　　　　　　　　　　　
小祝達朗; 大谷忠; 野崎英明; 坂本智
日本産業技術教育学会 第29回関東支部大会（群馬）, 10 Dec. 2017, 日本産業技術教育学会

技術科金属加工学習における技能の内容分析に基づくスキル調査　　　　　　　　　　　　　　　
小祝達朗; 大谷忠; 野崎英明; 坂本智
日本産業技術教育学会 第60回全国大会（弘前）, 26 Aug. 2017, 日本産業技術教育学会

技術科金属加工学習におけるスキルに関する内容分析　　　　　　　　　　　　　　　
小祝達朗; 大谷忠; 野崎英明; 坂本智
日本産業技術教育学会 第59回全国大会（京都）, 28 Aug. 2016, 日本産業技術教育学会

Learning Method for Cross-Sectional Performance of a Beam Based on Statistical Interpretations　　　　　　　　　　　　　　　
Hideaki Nozaki
日本機械学会 平成27年度 技術と社会部門講演会, 28 Nov. 2015, 日本機械学会

中学校技術科における飲料用缶を用いた金属加工学習の提案　　　　　　　　　　　　　　　
日本産業技術教育学会第26回関東支部大会, 14 Dec. 2014

中学校技術科における「丈夫な構造」の学習のための光弾性教材の開発　　　　　　　　　　　　　　　
松本亮; 佐久間博志; 野崎英明
日本産業技術教育学会第25回関東支部大会（東京）, 08 Dec. 2013, 日本産業技術教育学会

中学校技術科金属加工学習のためのスチール缶矯正装置の開発　　　　　　　　　　　　　　　
日本産業技術教育学会第25回関東支部大会（東京）, 08 Dec. 2013, 日本産業技術教育学会

多角形/多面体介在物の解を使用した数値的な等価介在物法に関する研究　　　　　　　　　　　　　　　
久郷英典; 野崎英明
日本機械学会第21回茨城講演会, 06 Sep. 2013, 日本機械学会関東支部

技術科における製作品の丈夫さに関する学習のための光弾性教材の開発　　　　　　　　　　　　　　　
松本亮; 野崎英明
日本産業技術教育学会第56回全国大会（山口）, 24 Aug. 2013, 日本産業技術教育学会

中学校技術科設計学習のための光弾性教材の開発に関する研究　　　　　　　　　　　　　　　
松本亮; 野崎英明
日本産業技術教育学会第24回関東支部大会（千葉）, 25 Nov. 2012, 日本産業技術教育学会関東支部

「はりの曲げ」を理解するための教材の開発と評価　　　　　　　　　　　　　　　
本橋諭; 野崎英明; 上野耕史; 竹野英敏
日本産業技術教育学会第24回関東支部大会（千葉）, 25 Nov. 2012, 日本産業技術教育学会関東支部

中学校技術科ものづくり学習における有限要素法の利用に関する基礎的研究　　　　　　　　　　　　　　　
朝香駿治; 田口雄一; 野崎英明
日本産業技術教育学会第23回関東支部大会, 11 Dec. 2011, 日本産業技術教育学会関東支部

中学校技術科における丈夫な構造の学習法に関する研究　　　　　　　　　　　　　　　
竹内優平; 野崎英明
日本産業技術教育学会第23回関東支部大会, 11 Dec. 2011, 日本産業技術教育学会関東支部

中学校技術科における熱可塑性プラスチックの成形学習に関する研究　　　　　　　　　　　　　　　
滝田優; 中山大地; 神田隼人; 野崎英明
日本産業技術教育学会第23回関東支部大会, 11 Dec. 2011, 日本産業技術教育学会関東支部

直交異方性母相中の不均質物の応力解析のための数値的な等価介在物法の開発　　　　　　　　　　　　　　　
久郷英典; 野崎英明; 友田陽
日本機械学会第19回茨城講演会, 26 Aug. 2011, 日本機械学会関東支部，精密工学会，茨城大学

「はりの曲げ」を理解するための教材の開発　　　　　　　　　　　　　　　
野崎英明; 本橋諭
日本産業技術教育学会第22回関東支部大会, 28 Nov. 2010, 日本産業技術教育学会関東支部

日本機械学会

日本金属学会

日本産業技術教育学会

日本鉄鋼協会

Development of a Teacher-Training Program for Teaching "Making Things"
Grant-in-Aid for Scientific Research (C)
Ibaraki University
2011 - 2013

Mathematical Analysis for Inverse Scattering Problems of Elastic Waves
Grant-in-Aid for Scientific Research (C)
Ibaraki University
2007 - 2008

Mathematical models of elastic waves and their inverse problems
Grant-in-Aid for Scientific Research (C)
Ibaraki University
2005 - 2006

Analysis of fundamental properties of elastic equations
Grant-in-Aid for Scientific Research (C)
IBARAKI UNIVERSITY
2003 - 2004

Analysis of scattering waves by perturbed portions
Grant-in-Aid for Scientific Research (C)
IBARAKI UNIVERSITY
2001 - 2002

超音波による複合材料界面特性の非破壊評価に関する理論的研究
奨励研究(A)
茨城大学
1996 - 1996

コーティングを施したC/Cコンポジットの耐熱衝撃性に関する基礎的研究
奨励研究(A)
東京工業高等専門学校
1993 - 1993

金属間化合物の熱衝撃破壊に関する理論的研究
重点領域研究
東北大学
1993 - 1993