Diamond Macro DFS 59161

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: pear;
• diameter: 6.0 mm;
• Macro diamond: standard grit;
• revolutions: 15,000 - 30,000 rpm;
• application: application - chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond Micro DFS 50212

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: thin rounded cylinder;
• diameter: 2.5 mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain

Packaging:

• 1 pc.

Diamond Superturbo DFS 53161

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp parts of the diamond emerge.

Characteristics:

• pear shape;
• diameter 6mm;
• Superturbo diamond, thick embankment;
• revolutions 15,000 - 30,000 rpm;
• application - chrome-cobalt;
• on the rectum.

Packaging:

• 1 pc.

Diamond coated drill for handpiece 1 piece

Diamond-coated drills for handpieces.

Application:

• for processing porcelain.

Possibility to purchase the entire PLU 8995 set:

Packaging:

• 1 pc.

Diamond Micro DFS 50161

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: pear;
• diameter: 6.0 mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond Turbo DFS 55161

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: pear;
• diameter: 6.0 mm;
• Turbo diamond: thick layer;
• revolutions: 15,000 - 30,000 rpm;
• application: application - chrome-cobalt, palladium.

Packaging:

• 1 pc.

Diamond Micro DFS 50131

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: lens disc;
• diameter: 8.0 mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond Turbo DFS 55092

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: flame;
• diameter: 3.0 mm;
• Turbo diamond: thick layer;
• revolutions: 15,000 - 30,000 rpm;
• application: application - chrome-cobalt, palladium.

Packaging:

• 1 pc.

Diamond Macro DFS 59202

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: thin cone;
• diameter: 2.3 mm;
• Macro diamond: standard grit;
• revolutions: 15,000 - 30,000 rpm;
• application: application - chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Milli-Micron Diamond DFS 54161

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: pear;
• diameter: 6.0 mm;
• Milli Micron diamond: fine grain;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, porcelain.

Packaging:

• 1 pc.

Milli-Micron Diamond DFS 54102

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: rounded cone;
• diameter: 3.0 mm;
• Milli Micron diamond: fine grain;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, porcelain.

Packaging:

• 1 pc.

Milli-Micron Diamond DFS 54242

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: thin cone;
• diameter: 1.6 mm;
• Milli Micron diamond: fine grain;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, porcelain.

Packaging:

• 1 pc.

Diamond Micro DFS 50214

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: long flame;
• diameter: 3.0 mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond Micro DFS 50181

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: large sharp cone;
• diameter: 5.0 mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond Micro DFS 50215

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: inverted hollow cone;
• diameter: 2.7 mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond Micro DFS 50400

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: inverted cone;
• diameter: 4.0 mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain

Packaging:

• 1 pc.

Diamond Micro DFS 50202

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: thin cone;
• diameter: 2.3 mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond Micro DFS 50620

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: small pear;
• diameter: 5.0 mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond Superturbo DFS 53305

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp parts of the diamond emerge.

Characteristics:

• shield shape;
• diameter 10mm;
• Superturbo diamond, thick embankment;
• revolutions 15,000 - 30,000 rpm;
• application - chrome-cobalt;
• on the rectum.

Packaging:

• 1 pc.

Diamond superturbo DFS 53181

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp parts of the diamond emerge.

Characteristics:

• cone shape;
• diameter 5mm;
• Superturbo diamond, thick embankment;
• revolutions 15,000 - 30,000 rpm;
• application - chrome-cobalt;
• on the rectum.

Packaging:

• 1 pc.

Diamond Turbo DFS 55044

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: rounded cone;
• diameter: 4.0 mm;
• Turbo diamond: thick layer;
• revolutions: 15,000 - 30,000 rpm;
• application: application - chrome-cobalt, palladium.

Packaging:

• 1 pc.

Diamond Macro DFS 59625

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: very large sharp pear;
• diameter: 8.0 mm;
• Macro diamond: standard grit;
• revolutions: 15,000 - 30,000 rpm;
• application: application - chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond Micro DFS 50650

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: inverted cone;
• diameter: 6.0 mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond Micro DFS 50800

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: shield;
• diameter: 8.0 mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond Micro DFS 50092

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: small flame;
• diameter: 3.0 mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond Macro DFS 59092

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: small flame;
• diameter: 3.0 mm;
• Macro diamond: standard grit;
• revolutions: 15,000 - 30,000 rpm;
• application: application - chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond Micro DFS 57262

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: thin cylinder;
• diameter: 1.6 mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain

Packaging:

• 1 pc.

Diamond Micro DFS 57232

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: thin flame;
• diameter: 1.6mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond Micro DFS 57212

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• rounded cylinder shape;
• diameter: 1.6 mm;
• Micro diamond fine grit;
• revolutions 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond Micro DFS 57202

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: thin flame;
• diameter: 1.6 mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond Superturbo DFS 53021

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp parts of the diamond emerge.

Characteristics:

• cylinder shape;
• diameter 6mm;
• Superturbo diamond, thick embankment;
• revolutions 15,000 - 30,000 rpm;
• application - chrome-cobalt;
• on the rectum.

Packaging:

• 1 pc.

Diamond Turbo DFS 55021

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: cylinder;
• diameter: 5.0 mm;
• Turbo diamond: thick layer;
• revolutions: 15,000 - 30,000 rpm;
• application: application - chrome-cobalt, palladium.

Packaging:

• 1 pc.

Diamond Turbo DFS 55181

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: cone;
• diameter: 5.0 mm;
• Turbo diamond: thick layer;
• revolutions: 15,000 - 30,000 rpm;
• application: application - chrome-cobalt, palladium.

Packaging:

• 1 pc.

Diamond Turbo DFS 55600

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: sharp pear;
• diameter: 6.0 mm;
• Turbo diamond: thick layer;
• revolutions: 15,000 - 30,000 rpm;
• application: application - chrome-cobalt, palladium.

Packaging:

• 1 pc.

Diamond Turbo DFS 55620

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: small pear;
• diameter: 5.0 mm;
• Turbo diamond: thick layer;
• revolutions: 15,000 - 30,000 rpm;
• application: application - chrome-cobalt, palladium.

Packaging:

• 1 pc.

Diamond Macro DFS 59021

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: large cylinder;
• diameter: 5.0 mm;
• Macro diamond: standard grit;
• revolutions: 15,000 - 30,000 rpm;
• application: application - chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond Macro DFS 59181

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: large sharp cone;
• diameter: 5.0 mm;
• Macro diamond: standard grit;
• revolutions: 15,000 - 30,000 rpm;
• application: application - chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond Macro DFS 59620

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: small pear;
• diameter: 5.0 mm;
• Macro diamond: standard grit;
• revolutions: 15,000 - 30,000 rpm;
• application: application - chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond Micro DFS 50021

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: cylinder;
• diameter: 5.0 mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain

Packaging:

• 1 pc.

Diamond Micro DFS 50217

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: sharp cone;
• diameter: 2.5 mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain

Packaging:

• 1 pc.

Diamond Micro DFS 50044

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: rounded cone;
• diameter: 5.0 mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain

Packaging:

• 1 pc.

Diamond Micro DFS 50172

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: long inverted cone;
• diameter: 3.0 mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond Micro DFS 50600

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: sharp pear;
• diameter: 6.0 mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond-coated drills for handpiece set

A set of diamond-coated drills, ideal for processing porcelain.

Packaging:

• 30 pcs.

Diamond Micro DFS 57242

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: thin rounded cone;
• diameter: 1.6 mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain

Packaging:

• 1 pc.

Diamond Macro DFS 59600

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: sharp pear;
• diameter: 6.0 mm;
• Macro diamond: standard grit;
• revolutions: 15,000 - 30,000 rpm;

• Application: Application - chrome-cobalt, palladium, porcelain. Packaging:

• 1 pc.

Diamond Micro DFS 50310

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: small sharp cone;
• diameter: 1.6 mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain

Packaging:

• 1 pc.

Diamond Micro DFS 50072

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• rounded cylinder shape;
• diameter: 3.0 mm;
• Micro diamond fine grit;
• revolutions 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond Micro DFS 50420

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• shape: ball;
• diameter: 2.3 mm;
• Micro diamond: fine grit;
• revolutions: 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.

Diamond Micro DFS 50112

Sidia® synthetic diamonds are permanently embedded in a sintered metal matrix consisting primarily of bronze with additives such as manganese and other alloying metals.

The sintering process takes place at a temperature of approximately 700°C.

Thanks to their fully sintered diamond structure, Sidia® tools are characterized by exceptional durability and even wear, allowing for precise and long-lasting machining of ceramics, zirconium and prosthetic metals.

As the outer layer wears away, more sharp diamond particles emerge.

Characteristics:

• rounded cylinder shape;
• diameter: 2.5 mm;
• Micro diamond fine grit;
• revolutions 15,000 - 30,000 rpm;
• application: chrome-cobalt, palladium, porcelain.

Packaging:

• 1 pc.