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Self Similarity of the Spherical C-S-H Particle in Cement Paste
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作者 沈卫国 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2009年第4期684-687,共4页
Cement paste with low water/cement ratio of 0.3 was observed using AFM. It is found that C-S-H has self similarity trait from scanning scale 20 um×20 um down to 300 nm× 300 nm, and the feature of C-S-H at la... Cement paste with low water/cement ratio of 0.3 was observed using AFM. It is found that C-S-H has self similarity trait from scanning scale 20 um×20 um down to 300 nm× 300 nm, and the feature of C-S-H at large scale is very similar to those smaller scales. It can be concluded that C-S-H is composed with some fundamental spherical globule, the fundamental globules agglomerate into bigger ones, moreover the bigger ones agglomerate into even bigger one. A C-S-H globule fractal model was put forward to describe the self similarity of the C-S-H globule, which can be used to reveal how the C-S-H globule contacts with each other. 展开更多
关键词 SELF-SIMILAR C-S-H cement paste fundamental unite GRANULAR pattern
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Integral Points on a Class of Elliptic Curve 被引量:2
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作者 ZHU Huilin CHEN Jianhua 《Wuhan University Journal of Natural Sciences》 EI CAS 2006年第3期477-480,共4页
We prove all integral points of the elliptic curve y^2=x^2-30x+133 are (x,y) = (-7,0),(-3,±14),(2, ±9),(6,±13), (5143326,±11664498677), by using the method of algebraic number theory a... We prove all integral points of the elliptic curve y^2=x^2-30x+133 are (x,y) = (-7,0),(-3,±14),(2, ±9),(6,±13), (5143326,±11664498677), by using the method of algebraic number theory and p-adic analysis. Furthermore, we develop a computation method to find all integral points on a class of elliptic curve y^2= (x+α)(x^2-α)(x^2-αx+b) ,α ,b∈Z,α^2〈4b and find all integer solutions of hyperelliptic Diophantine equation Dy^2=Ax^4 + Bx^2 +C,B^2〈4AC. 展开更多
关键词 Diophantine equation elliptic curve fundamental unit algebraic number factorization p-adic analysis method
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A New Proof of Diophantine Equation ■
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作者 ZHU HUI-LIN 《Communications in Mathematical Research》 CSCD 2009年第3期282-288,共7页
By using algebraic number theory and p-adic analysis method, we give a new and simple proof of Diophantine equation (^n2) = (^m4)
关键词 binomial Diophantine equation fundamental unit FACTORIZATION p-adic analysis method
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Time, Length, and Mass Are Derived Quantities
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作者 Tower Chen Zeon Chen 《Journal of Modern Physics》 2016年第10期1192-1199,共8页
Fundamental units of measurements are kilograms, meters, and seconds—in regards to mass length, and time. All other measurements in mechanical quantities including kinetic quantities and dynamic quantities are called... Fundamental units of measurements are kilograms, meters, and seconds—in regards to mass length, and time. All other measurements in mechanical quantities including kinetic quantities and dynamic quantities are called derived units. These derived units can be expressed in terms of fundamental units, such as acceleration, area, energy, force, power, velocity and volume. Derived quantities will be referred to as time, length, and mass. In order to explain that fundamental units are not equivalent with fundamental quantities, we need to understand the contraction of time and length in Special Relativity. If we choose the velocity of light as fundamental quantity and length and time as derived quantities, then we are able to construct three-dimensional space-time frames. Three-dimensional space-time frames representing time with polar coordination, time contraction and length contraction can be shown graphically. 展开更多
关键词 fundamental Units fundamental Quantities Derived Units Derived Quantities Special Relativity Constant Velocity of Light Three-Dimensional Space-Time Frame
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Fundamental Unit System and Class Number for Real Number Fields of Type (2,2,2)
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作者 王鲲鹏 张贤科 《Tsinghua Science and Technology》 EI CAS 2000年第2期150-153,共4页
Let k=Q((D 2+md)(D 2+nd)(D 2+rd)), this paper proves firstly that the fundamental unit of k is ε=((D 2+md)(D 2+nd)+D 2(D 2+rd)) 2/(|mn|d 2), where D,d,m,n, and r are rational integers satisfying certain cond... Let k=Q((D 2+md)(D 2+nd)(D 2+rd)), this paper proves firstly that the fundamental unit of k is ε=((D 2+md)(D 2+nd)+D 2(D 2+rd)) 2/(|mn|d 2), where D,d,m,n, and r are rational integers satisfying certain conditions. Consequently, we describe the fundamental unit system of K=Q(D 2+md,D 2+nd,D 2+rd) explicitly by the fundamental unit of all the quadratic subfields and the class number h K explicitly by the class numbers of all the quadratic subfields. We also provide the fundamental unit system of some fields of (2,2) type. 展开更多
关键词 number field octic field fundamental unit system class number
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ON IDEAL CLASS GROUPS AND UNITS IN TERMSOF THE QUADRATIC FORM x^2 + 32y^2 被引量:2
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作者 JURGENHURRELBRINK YUEQIN 《Chinese Annals of Mathematics,Series B》 SCIE CSCD 2005年第2期239-252,共14页
For quadratic number ?elds F = Q(√2p1 ···pt?1 ) with primes pj ≡ 1 mod 8, the authors study the class number and the norm of the fundamental unit of F. The resultsgeneralize nicely what has been famil... For quadratic number ?elds F = Q(√2p1 ···pt?1 ) with primes pj ≡ 1 mod 8, the authors study the class number and the norm of the fundamental unit of F. The resultsgeneralize nicely what has been familiar for the ?elds Q(√2p) with a prime p ≡ 1 mod 8, including density statements. And the results are stated in terms of the quadratic form x2 + 32y2 and illustrated in terms of graphs. 展开更多
关键词 Class group R′edei Matrix fundamental unit
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