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Round bottom flask 3D Models

Find the best Round bottom flask 3D Models, free download in STL, FBX, GLB, OBJ, 3MF, USDZ for 3D modeling and creation in Blender, 3D printing, game developing, animation, eCommerce, AR/VR and etc. Generated by Tripo AI 3D Generator.

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Make a empty transparent round bottom flask
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Anonymous1769188475
The pressure-cooker locking mechanism can be applied to a round-bottom laboratory flask by first dividing the flask horizontally at the midpoint of its spherical body, creating an upper half with the neck and a lower bowl-shaped half. The upper half is designed with a standard 29/30 ground-glass joint neck, characterized by a slightly increased height and thicker wall profile, as shown in the reference image, to provide enhanced mechanical strength and secure connectivity with standard laboratory adapters. At the cut plane, flat circular flanges are formed on both halves to provide proper mating surfaces, similar to the rim of a pressure cooker. A small rubber or silicone gasket is placed between these flanges to create an airtight seal and to prevent direct glass-to-glass contact. Around the circumference of the flask, multiple metallic side locking clips or clamps are attached, with one end fixed to the upper half and the other to the lower half. When the two halves are brought together, the gasket is compr
Anonymous1769188475
Create a realistic 3D model of a round-bottom laboratory flask divided horizontally into two equal halves and securely closed using a pressure-cooker–style locking mechanism, featuring metallic side locking clips or clamps and a sealed lid system with a small rubber belt gasket, while maintaining transparent borosilicate glass material and accurate laboratory proportions.
Anonymous1768586182
Create a highly realistic, scientifically accurate 3D model of laboratory glassware, inspired by a round bottom flask (RBF) that has been cut cleanly and precisely along a horizontal plane at its exact midpoint, and then opened toward the viewer, similar to the way a coconut appears when broken cleanly into two halves and presented facing forward. The final model must clearly communicate the idea of intentional separation, not damage or shattering. The flask should look as if it was perfectly sliced using a precision tool, preserving symmetry, smoothness, and structural clarity. 🔹 Overall Composition and Orientation The scene should consist of two distinct parts of the same round bottom flask: Upper half of the flask, including: The cylindrical neck The curved upper portion of the spherical body Lower half of the flask, consisting of: The lower spherical bowl A flat, circular cut opening at the top Both halves must be aligned along the same vertical axis and positioned so that: The open cut surface
Anonymous1768586182
Design a high-precision 3D model of laboratory glassware featuring: (1) A complete round bottom flask (RBF) (2) A round bottom flask cut exactly at the midpoint using a horizontal plane, creating a top half and bottom half. The round bottom flask must include: A perfect spherical bottom A smooth cylindrical neck aligned along the vertical axis Uniform glass wall thickness Realistic transparent borosilicate glass material Smooth, continuous curvature with no distortions The horizontally cut flask must: Be sliced precisely through the geometric center of the spherical body Use a perfect horizontal cutting plane Clearly expose the internal hollow cavity Show clean, sharp cut surfaces Preserve accurate wall thickness at the cut section Technical requirements: High-resolution, smooth topology (high-poly) Real-world laboratory scale and proportions Physically realistic glass shader (refraction, reflection) Neutral studio lighting and uncluttered background Geometry suitable for rendering, simulat
Anonymous1768586182
Design a high-precision 3D model of laboratory glassware featuring: (1) A complete round bottom flask (RBF) (2) A round bottom flask cut exactly at the midpoint using a horizontal plane, creating a top half and bottom half. The round bottom flask must include: A perfect spherical bottom A smooth cylindrical neck aligned along the vertical axis Uniform glass wall thickness Realistic transparent borosilicate glass material Smooth, continuous curvature with no distortions The horizontally cut flask must: Be sliced precisely through the geometric center of the spherical body Use a perfect horizontal cutting plane Clearly expose the internal hollow cavity Show clean, sharp cut surfaces Preserve accurate wall thickness at the cut section Technical requirements: High-resolution, smooth topology (high-poly) Real-world laboratory scale and proportions Physically realistic glass shader (refraction, reflection) Neutral studio lighting and uncluttered background Geometry suitable for rendering, simulat
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