Glasses With Different Extents of [50B2o3-20Na2o] − (30−X)Pbo - Xzno (X=0, 5, 10, 15,20,And 25 Mol), Have Been Set Up By the Liquefy Extinguishing Strategy. Flexible Properties, X-Beam and Ft-Ir Spectroscopic Examinations Have Been Utilized to Consider the Job of Zno on the Design of the Explored Glass Frameworks. Versatile Properties and Debye Temperature Have Been Examined Utilizing Sound Wave Speed Estimations at 4Mhz at Room Temperature. the Shapeless Idea of These Examples Was Checked By Xrd and Sem Is Utilized to Contemplate the Morphology of These Glass Tests. X-Beam Diffraction Concentrates on All the Glass Tests Were Recorded at Room Temperature. Pinnacle Free X-Beam Spectra Affirmed the Formless Idea of the Glasses. Ftir Spectra of These Glasses Uncovered That the Borate Network Is Influenced By the Expansion In the Centralization of Zno Content and the Blended Salt Oxides. Ftir Contemplates Affirmed the Presence of Both [Bo3] and [Bo4] Units, Demonstrating That the Glass Network Is Comprised of These Two Units Set In Various Primary Gatherings. the Non-Direct Variety of Pinnacle Places of B-O-B Twisting and Extending of [Bo3] and [Bo4] Units. the Underlying Clarification Has Been Completed By Contemplating the Ultrasonic Speeds (Longitudinal Speed Ul and Shear Speed Us) and Thickness of These Glass Tests.