The magnetic properties of Nd_2(Fe_(1-x)M_x)_(14)B(M=C and Si) compounds have been investi-gated.Substituting Fe by small amount of metalloid C and Si atoms,the compounds are intetragonal structure and have uniaxial anisotropy.The substitution of C for part of Fe de-creases the Curie temperature of the compounds and the intrinsic coercivity of bond samples atlow temperature.The replacement of Fe by Si makes the Curie temperature increase with amaximum at the vicinity of x=0.15.When the range of the content of Si is 0≤x≤0.10,thecoercivity distinctly increases at room temperature.from 62.7 kA/m at x=0 to138.7kA/m at x=0.06,where the residual magnetization has a maximum:in the mean timethe saturation magnetization decreases only by a small amount. The magnetic properties of Nd_2 (Fe_ (1-x) M_x) _ (14) B (M = C and Si) compounds have been investi- gated.Substituting Fe by small amount of metalloid C and Si atoms, the compounds are intetragonal structure and have uniaxial anisotropy. The substitution of C for part of Fe de-creases the Curie temperature of the compounds and the intrinsic coercivity of bond samples atlow temperature. The replacement of Fe by Si makes the Curie temperature increase with a maximum at the vicinity of x = 0.15 .When the range of the content of Si is 0≤x≤0.10, thecoercivity distinctly increases at room temperature. From 62.7 kA / m at x = 0 to 138.7 kA / m at x = 0.06, where the residual magnetization has a maximum: in the mean timethe saturation magnetization decreases only by a small amount.