C95500 Aluminum Bronze and Its Equivalent Alternatives: Performance and Cost Analysis

1. Introduction

C95500 aluminum bronze is a premium nickel-aluminum bronze alloy recognized for its exceptional mechanical properties, wear resistance, and superior corrosion performance, particularly in demanding marine and aerospace applications. This comprehensive analysis examines C95500 alongside its potential equivalent alternatives, providing procurement specialists, engineers, and materials selection professionals with detailed comparisons of chemical composition, mechanical properties, manufacturing considerations, and cost-performance ratios. This guide aims to facilitate informed decision-making when sourcing materials for critical applications requiring high strength, excellent wear resistance, and corrosion protection.

2. C95500 Aluminum Bronze: Baseline Specifications

Table 1: Chemical Composition of C95500 Aluminum Bronze (%)

Al	Cu	Fe	kurşun	Mn	İçinde	Ve	Zn
10.5-11.5	Rem.	3.0-5.0	00,03 maksimum	maksimum 3,5	3.0-5.5	00,5 maksimum	00,3 maksimum
11.0*	78.5*	4.0*	–	1.0*	5.0*	0.15*	0.1*

*Nominal values

Table 2: Mechanical Properties of C95500 Aluminum Bronze

Mülk	Değer	Birim
Gerilme direnci	650-760	MPa
Akma dayanımı	280-340	MPa
Uzama	15-25	%
Brinell Sertliği	170-220	HB
Yoğunluk	7.5	g/cm³
Esneklik Modülü	110	not ortalaması
Termal iletkenlik	42	W/m·K
Termal Genleşme katsayısı	16.2	μm/m·K
Elektiriksel iletkenlik	8	% IACS

3. Direct Equivalent Alternatives to C95500

3.1 International Standard Equivalents

Table 3: International Standards Equivalents for C95500

Ülke	Standart	Tanım	Equivalence Level
Amerika Birleşik Devletleri	ASTM	ABD C95500	Reference
Avrupa	İÇİNDE	CuAl11Fe5Ni5	Yüksek
Almanya	İTİBAREN	CuAl11Ni5Fe5	Yüksek
İngiltere	BS	CA105	Yüksek
Japonya	O	CAC707	Orta
Çin	Büyük Britanya	ZCuAl11Ni5Fe5	Yüksek
Rusya	GOST	BrAZhNMts 11-6-6	Orta
Uluslararası	ISO	CuAl11Ni5Fe5	Yüksek

3.2 Chemical Composition Comparison

Table 4: Chemical Composition Comparison of C95500 and Its Direct Equivalents (%)

Alaşım	Standart	Al	Cu	Fe	kurşun	Mn	İçinde	Ve	Diğerleri
C95500	ASTM	10.5-11.5	Rem.	3.0-5.0	00,03 maksimum	maksimum 3,5	3.0-5.5	00,5 maksimum	Zn≤0.3
CuAl11Fe5Ni5	İÇİNDE	10.0-12.0	Rem.	4.0-6.0	0.02 max	Maksimum 2,0	4.0-6.0	00,5 maksimum	Zn≤0.5
CA105	BS	10.0-11.5	Rem.	4.0-5.5	00,01 maksimum	Maksimum 2,0	4.5-6.0	00,3 maksimum	Zn≤0.5
CAC707	O	10.0-12.0	Rem.	3.0-5.0	00,05 maksimum	Maksimum 2,0	4.0-6.0	0.6 max	Zn≤1.0
ZCuAl11Ni5Fe5	Büyük Britanya	10.0-12.0	Rem.	4.0-6.0	0.02 max	Maksimum 2,0	4.0-6.0	00,5 maksimum	Zn≤0.5

3.3 Mechanical Properties Comparison

Table 5: Mechanical Properties Comparison of C95500 and Direct Equivalents

Alaşım	Çekme Dayanımı (MPa)	Akma Dayanımı (MPa)	Uzama (%)	Sertlik (HB)
C95500 (ASTM)	650-760	280-340	15-25	170-220
CuAl11Fe5Ni5 (EN)	650-750	280-350	15-22	170-220
CA105 (BS)	650-750	280-335	15-20	175-220
CAC707 (JIS)	620-730	270-330	15-20	165-215
ZCuAl11Ni5Fe5 (GB)	650-750	280-340	15-22	170-220

4. Alternative Material Categories

4.1 Other Aluminum Bronze Grades

Table 6: Alternative Aluminum Bronze Grades Comparison

Alaşım	UNS#	Temel Farklılıklar	Göreli Maliyet	Performans Derecelendirmesi
C95800	C95800	Lower Al, higher Ni, better corrosion resistance	110%	Çok Yüksek
C95400	C95400	Lower Ni, reduced strength and corrosion resistance	85%	Orta
C95900	C95900	Higher Al, increased hardness, less ductile	105%	Yüksek
C63000	C63000	Different Al-Ni ratio, higher strength	115%	Çok Yüksek
C63200	C63200	Lower Al, better ductility, similar strength	110%	Yüksek

4.2 Nickel Aluminum Bronze Equivalents

Table 7: Nickel Aluminum Bronze Equivalents

Alaşım	UNS#	Key Composition	Anahtar Özellikler	Cost Ratio to C95500	Best Applications
C95800	C95800	Cu-9Al-4Fe-4Ni	Superior seawater corrosion	110%	Marine propellers, valves
C95700	C95700	Cu-12Al-6Fe-2Ni	Higher hardness, lower ductility	95%	Ağır hizmet tipi rulmanlar
C96900	C96900	Cu-16Al-3Fe-4Ni	Very high strength and wear resistance	130%	Aerospace components
C96400	C96400	Cu-11Al-6Fe-3Ni-3Mn	Mükemmel aşınma direnci	105%	Sliding components
C95520	C95520	Cu-11Al-4Fe-5Ni-Si	Enhanced machinability	105%	Precision components

4.3 Alternative Material Categories

Table 8: Non-Aluminum Bronze Alternative Materials

Material Category	Example Grade	Comparative Performance	Cost Ratio	Application Overlap
Manganese Bronze	C86300	Lower corrosion resistance, similar strength	80%	Orta
Paslanmaz çelik	17-4PH	Higher strength, lower friction	90%	Orta
Nikel Alaşımları	Monel K-500	Superior corrosion, higher strength, higher cost	175%	High for marine
Duplex SS	2205	Good corrosion, lower wear resistance	95%	Orta
Titanyum Alaşımları	Ti-6Al-4V	Higher strength-to-weight, much higher cost	250%	Orta

5. Cost-Performance Analysis

5.1 Relative Material Cost Index

Table 9: Relative Material Cost Index (C95500 = 100)

Malzeme	Hammadde Maliyeti	İşleme Maliyeti	Total Cost Index	Cost Trend (2-Year)
C95500	100	100	100	Stable
CuAl11Fe5Ni5 (EN)	95-105	95-105	95-105	Stable
C95800	105-115	100-110	103-113	Slight increase
C95400	80-90	90-100	83-93	Stable
C63000	110-120	105-115	108-118	Increasing
17-4PH SS	85-95	95-105	88-98	Volatile
Monel K-500	170-190	150-170	165-185	Increasing

5.2 Performance Rating by Application

Table 10: Performance Rating by Application (1-10 scale, 10=best)

Malzeme	Denizcilik Uygulamaları	Havacılık	Oil & Gas	Heavy Industry	Overall Value Rating
C95500	9	8	8	9	8.5
CuAl11Fe5Ni5	9	8	8	9	8.5
C95800	10	8	9	8	8.8
C95400	7	6	7	8	7.0
C63000	8	9	8	9	8.5
17-4PH SS	7	8	8	8	7.8
Monel K-500	10	9	9	7	8.8

6. Manufacturing Considerations

6.1 Processability Comparison

Table 11: Manufacturing Process Suitability (1-10 scale, 10=excellent)

Malzeme	Kum Döküm	Centrifugal Casting	Hassas Döküm	İşlenebilirlik	Kaynaklanabilirlik	Heat Treatment Response
C95500	8	9	7	6	6	8
CuAl11Fe5Ni5	8	9	7	6	6	8
C95800	8	9	7	6	7	8
C95400	9	8	7	7	5	7
C63000	8	9	8	6	5	9
17-4PH SS	6	7	8	5	8	9
Monel K-500	6	7	7	4	7	8

6.2 Supply Chain Considerations

Table 12: Supply Chain Factors

Malzeme	Global Availability	Lead Time (weeks)	Supplier Diversity	Price Stability	Geri dönüştürülebilirlik
C95500	Orta	4-6	Orta	Orta	Yüksek
CuAl11Fe5Ni5	Orta	4-6	Orta	Orta	Yüksek
C95800	Orta	5-8	Orta	Orta-düşük	Yüksek
C95400	Yüksek	3-5	Yüksek	Orta	Yüksek
C63000	Orta	5-7	Orta	Orta	Yüksek
17-4PH SS	Yüksek	3-5	Yüksek	Orta	Yüksek
Monel K-500	Düşük orta	8-12	Düşük orta	Düşük	Orta

7. Application-Specific Equivalence

Table 13: Recommended Alternatives by Application

Başvuru	First Choice	Second Choice	Third Choice	Key Selection Factor
Marine propellers	C95800	C95500	Monel K-500	Seawater corrosion
Valve seats	C95500	C63000	17-4PH	Wear resistance
Aircraft bearings	C95500	C63000	C95900	Strength/durability
Offshore equipment	C95800	C95500	2205 Duplex SS	Korozyon direnci
Pompa bileşenleri	C95500	C95800	C95400	Erosion resistance
Gears and pinions	C95500	C63000	17-4PH	Fatigue strength
Wear plates	C95900	C95500	C86300	Abrasion resistance
Burçlar	C95500	C95400	C95520	Load bearing/wear

8. Selection Methodology for Equivalent Materials

Table 14: Decision Matrix for Material Selection

Selection Factor	Ağırlık	C95500	CuAl11Fe5Ni5	C95800	C95400	C63000	17-4PH SS
Mechanical strength	% 20	8	8	8	7	9	9
Korozyon direnci	%	8	8	9	7	8	7
Wear resistance	% 20	9	9	8	8	9	7
Cost-effectiveness		7	7	6	8	6	7
İşlenebilirlik		6	6	6	7	6	5
Kullanılabilirlik		7	7	6	9	7	8
Weighted Score	% 100	7.85	7.85	7.70	7.45	7.95	7.40

9. Regional Market Availability and Pricing Trends

Table 15: Regional Availability and Price Variations

Bölge	C95500 Availability	Price Index	Leading Suppliers	Import Considerations
North America	Yüksek	100	Columbia Metals, Concast Metals	Domestic supply robust
Avrupa	Orta	105-115	KME, Lebronze alloys	EU material certifications
Çin	Orta	85-95	Various foundries	Quality verification critical
Japonya	Orta	115-125	Mitsubishi Materials, JX Nippon	Premium quality, higher cost
Hindistan	Orta	90-100	Multiple foundries	Quality consistency variable
Middle East	Düşük orta	120-130	Mostly imported	Import duties, lead times
Avustralya	Orta	115-125	Regional distributors	Transport costs significant

Table 16: Five-Year Price Trend Analysis (Index: 2020=100)

Year	C95500	C95800	C95400	C63000	17-4PH SS	Copper Index	Nickel Index
2020	100	100	100	100	100	100	100
2021	120	125	118	122	110	125	135
2022	135	142	130	138	118	135	150
2023	130	138	125	132	120	130	145
2024	125	132	120	128	115	125	140
2025*	122	130	115	125	112	120	135

*Projected values

10. Conclusion and Procurement Recommendations

C95500 nickel-aluminum bronze offers exceptional performance in demanding applications requiring a combination of high strength, excellent wear resistance, and good corrosion properties. The most direct equivalent alternatives are found in the European standard CuAl11Fe5Ni5 and the Chinese standard ZCuAl11Ni5Fe5, which offer very similar performance characteristics with minimal cost variations.

For applications requiring superior seawater corrosion resistance, C95800 provides enhanced performance at a modest 5-10% cost increase. For less demanding applications, C95400 offers good performance at approximately 10-15% lower cost and greater availability. C63000 presents a viable alternative for applications requiring higher strength, though at a slightly higher cost.

For procurement professionals, the following strategic recommendations apply:

Always request material certification documentation with chemical analysis to verify composition compliance
Consider total cost of ownership including lifecycle maintenance and replacement costs
Develop relationships with multiple qualified suppliers to ensure supply chain resilience
For critical marine applications, verify specific corrosion performance data in relevant environments
Monitor nickel prices as a leading indicator, as nickel content significantly impacts material cost
Implement material equivalence approval protocols to facilitate substitutions when necessary
Consider regional pricing variations when sourcing for large projects
For high-volume applications, evaluate the feasibility of long-term supply agreements to stabilize pricing
Maintain safety stock of critical components during periods of commodity price volatility

By carefully evaluating the equivalence factors presented in this analysis, procurement specialists and engineers can make informed decisions when selecting alternatives to C95500 aluminum bronze, balancing performance requirements with cost considerations and ensuring supply chain resilience in a dynamic market environment.