Metals and Alloys in Dentistry - 2.5 PDF

Summary

This document provides an overview of metals and alloys, focusing on their applications in dentistry. It details the characteristics and properties of various metals and alloys, as well as their benefits and common uses in dental procedures. The document covers topics like types of alloys, their properties, and the relationship between metallurgy and dental applications in detail.

Full Transcript

**[Metals and alloys - 2.5]**

Metals - elements that readily lose electrons to form positive ions and
have metallic bonds

Alloys - mixtures of two or more metals, or metals with non-metals,
designed to have enhanced properties

**Characteristics of metals**

Physical properties

- - -

Chemical properties

- -

**Metallic bonding**

Delocalised electrons = valence electrons not bound to any specific atom

Sea of electrons = atoms can slide over each other - malleable

Alloys

= combination of metals to achieve desired properties not found in pure
metals

Types of alloys:

1. 2.

**Benefits of dental alloys**

Improved mechanical properties

Tailored physical properties eg adjusting mpt and thermal expansion

Enhanced biocompatibility - reduced allergenic and improved tissue
response

Common dental metals

Gold = v good malleability and corrosion resistance

Silver = high thermal conductivity and ductility

Used as a component in dental alloys

Titanium = high strength to weight ratio and biocompatibility

Used for dental implants and ortho wires

Common dental metals

Amalgam = alloy of mercury with silver, tin, copper

Used for fillings

Gold alloys = gold with copper, silver, palladium

Used for crowns, bridges, inlays

Base metal alloys = nickel-chromium, cobalt-chromium alloys

Used for partial denture frameworks, orthodontic wires

**Fundamental metallurgical principles**

**Crystal structure =** ordered arrangement of atoms in a metal ,
affects mechanical properties eg ductility and strength

Types

1. 2. 3.

**Phases =** different structural forms of material each with distinct
physical properties, predicts how alloys behave under diff conditions

Types

1. 2.

Phase diagrams are visual representations of phases at different temps
and compositions

Eutectic point = lowest melting point of an alloy system

Solidus and liquidus lines = boundaries between solid and liquid phases

**Alloying in dentistry**

Purpose:

- - -

Common alloying elements:

- - - - -

**Relationship between metallurgy and properties**

Crystal structure impact

- -

Phase influence

- -

Alloying effects

- -

**Classification of dental alloys**

By composition

- - -

By structure

- -

By application

- - -


High noble alloys

*Composition* - gold (primary component, palladium and platinum added
for strength

*Characteristics* - v good corrosion resistance (prevents ion release
and tarnishing, reduces tissue irrigation), highly compatible with oral
tissues

*Applications* - crowns, bridges, inlays, onlays

Noble alloys

*Composition* - gold, palladium, silver

*Characteristics* - good corrosion resistance, balanced strength and
ductility

*Applications* - PFM restorations (compatible with thermal expansion
with porcelain) and metal frameworks (for fixed and removable
prostheses)

Base metal alloys

*Composition* - nickel, chromium, cobalt

*Characteristics* - higher strength and hardness than noble alloys, more
economical but nickel can cause reaction

*Applications* - partial denture frameworks (high rigidity) and ortho
wires (elasticity and formability)

**Noble metals in dentistry**

Gold - malleable, ductile, corrosion resistant

*Use* - high noble alloys for crowns and bridges

Platinum and palladium - increases alloy strength and melting point

*Use* - added to gold alloys for durability

- -

**Base metals in dentistry**

Nickel - strengthens alloys but can cause allergy

Chromium - corrosion resistance via oxide layer

Cobalt - enhances hardness

*Advantages* - strong so allows for thinner designs

*Limitations* - higher melting point

**Corrosion**

Types:

- -

Prevention

- - -

**Biocompatibility**

Allergic reactions - nickel sensitivity affects up to 10% of pop

Tissue response - passive oxide layers (Cr and Ti form layers which
reduces ion release and tissue irritation)

Regulatory standards - ISO (guidelines for composition and safety)

**Summary**

§Metals and alloys are fundamental materials in dentistry, providing
strength and durability.

§Metallic bonding and crystal structures (BCC, FCC, HCP) determine metal
properties.

§Alloying enhances metal properties, making them more suitable for
dental applications.

§Metallurgical principles influence mechanical and physical properties
like strength and corrosion resistance.

§Dental alloys are classified by composition (high noble, noble, base
metals), structure, and application.

§Noble metals (gold, palladium, platinum) offer excellent corrosion
resistance and biocompatibility.

§Base metals (nickel, chromium, cobalt) provide high strength but may
pose allergy risks.