目次

1.要旨
2.市場ダイナミクス
2.1.市場促進要因と機会
2.2.市場の阻害要因と課題
2.3.市場動向
2.3.1.XXXX
2.3.2.XXXX
2.3.3.XXXX
2.3.4.XXXX
2.3.5.XXXX
2.4.コビッド19効果
2.5.サプライチェーン分析
2.6.政策と規制の枠組み
2.7.業界専門家の見解
3.調査方法
3.1.二次調査
3.2.一次データ収集
3.3.市場形成と検証
3.4.報告書作成、品質チェック、納品
4.市場構造
4.1.市場への配慮
4.2.前提条件
4.3.制限事項
4.4.略語
4.5.情報源
4.6.定義
5.経済・人口統計
6.スパークプラグの世界市場展望
6.1.金額別市場規模
6.2.地域別市場シェア
6.3.市場規模および予測、地域別
6.4.市場規模・予測：製品タイプ別
6.5.市場規模・予測：材料別
6.6.市場規模・予測：用途別
6.7.市場規模・予測：流通チャネル別
7.北米スパークプラグ市場展望
7.1.市場規模：金額別
7.2.国別市場シェア
7.3.市場規模および予測、製品タイプ別
7.4.市場規模・予測：材料別
7.5.市場規模・予測：用途別
7.6.市場規模・予測：流通チャネル別
7.7.米国スパークプラグ市場の展望
7.7.1.市場規模：金額別
7.7.2.製品タイプ別市場規模・予測
7.7.3.素材別市場規模・予測
7.7.4.用途別市場規模・予測
7.7.5.流通チャネル別市場規模・予測
7.8.カナダのスパークプラグ市場展望
7.8.1.金額別市場規模
7.8.2.製品タイプ別市場規模および予測
7.8.3.材料別の市場規模・予測
7.8.4.用途別市場規模・予測
7.8.5.流通チャネル別市場規模・予測
7.9.メキシコのスパークプラグ市場展望
7.9.1.金額別市場規模
7.9.2.製品タイプ別市場規模および予測
7.9.3.材料別の市場規模・予測
7.9.4.用途別市場規模・予測
7.9.5.流通チャネル別市場規模・予測
8.欧州スパークプラグ市場展望
8.1.金額別市場規模
8.2.国別市場シェア
8.3.市場規模および予測、製品タイプ別
8.4.市場規模・予測：材料別
8.5.市場規模・予測：用途別
8.6.市場規模・予測：流通チャネル別
8.7.ドイツのスパークプラグ市場展望
8.7.1.市場規模：金額別
8.7.2.製品タイプ別市場規模および予測
8.7.3.材料別市場規模・予測
8.7.4.用途別市場規模・予測
8.7.5.流通チャネル別市場規模・予測
8.8.イギリスのスパークプラグ市場展望
8.8.1.金額別市場規模
8.8.2.製品タイプ別市場規模および予測
8.8.3.材料別市場規模・予測
8.8.4.用途別市場規模・予測
8.8.5.流通チャネル別市場規模・予測
8.9.フランスのスパークプラグ市場展望
8.9.1.金額別市場規模
8.9.2.製品タイプ別市場規模および予測
8.9.3.素材別市場規模・予測
8.9.4.用途別市場規模・予測
8.9.5.流通チャネル別市場規模・予測
8.10.イタリアのスパークプラグ市場展望
8.10.1.金額別市場規模
8.10.2.製品タイプ別市場規模および予測
8.10.3.材料別の市場規模・予測
8.10.4.用途別市場規模・予測
8.10.5.流通チャネル別市場規模・予測
8.11.スペインのスパークプラグ市場展望
8.11.1.金額別市場規模
8.11.2.製品タイプ別市場規模および予測
8.11.3.素材別市場規模・予測
8.11.4.用途別市場規模・予測
8.11.5.流通チャネル別市場規模・予測
8.12.ロシアのスパークプラグ市場展望
8.12.1.金額別市場規模
8.12.2.製品タイプ別市場規模・予測
8.12.3.材料別の市場規模・予測
8.12.4.用途別市場規模・予測
8.12.5.流通チャネル別市場規模・予測
9.アジア太平洋地域のスパークプラグ市場展望
9.1.金額別市場規模
9.2.国別市場シェア
9.3.市場規模および予測、製品タイプ別
9.4.市場規模・予測：材料別
9.5.市場規模・予測：用途別
9.6.市場規模・予測：流通チャネル別
9.7.中国スパークプラグ市場展望
9.7.1.市場規模：金額別
9.7.2.製品タイプ別市場規模および予測
9.7.3.材料別の市場規模・予測
9.7.4.用途別市場規模・予測
9.7.5.流通チャネル別市場規模・予測
9.8.日本スパークプラグ市場展望
9.8.1.金額別市場規模
9.8.2.製品タイプ別市場規模・予測
9.8.3.材料別の市場規模・予測
9.8.4.用途別市場規模・予測
9.8.5.流通チャネル別市場規模・予測
9.9.インドのスパークプラグ市場展望
9.9.1.金額別市場規模
9.9.2.製品タイプ別市場規模および予測
9.9.3.素材別市場規模・予測
9.9.4.用途別市場規模・予測
9.9.5.流通チャネル別市場規模・予測
9.10.オーストラリアのスパークプラグ市場展望
9.10.1.金額別市場規模
9.10.2.製品タイプ別市場規模および予測
9.10.3.材料別の市場規模・予測
9.10.4.用途別市場規模・予測
9.10.5.流通チャネル別市場規模・予測
9.11.韓国のスパークプラグ市場展望
9.11.1.金額別市場規模
9.11.2.製品タイプ別市場規模および予測
9.11.3.材料別の市場規模・予測
9.11.4.用途別市場規模・予測
9.11.5.流通チャネル別の市場規模・予測
10.南米のスパークプラグ市場展望
10.1.金額別市場規模
10.2.国別市場シェア
10.3.市場規模および予測、製品タイプ別
10.4.市場規模・予測：材料別
10.5.市場規模・予測：用途別
10.6.市場規模・予測：流通チャネル別
10.7.ブラジルスパークプラグの市場展望
10.7.1.市場規模：金額
10.7.2.製品タイプ別市場規模および予測
10.7.3.材料別の市場規模・予測
10.7.4.用途別市場規模・予測
10.7.5.流通チャネル別市場規模・予測
10.8.アルゼンチンのスパークプラグ市場展望
10.8.1.金額別市場規模
10.8.2.製品タイプ別市場規模および予測
10.8.3.材料別市場規模・予測
10.8.4.用途別市場規模・予測
10.8.5.流通チャネル別市場規模・予測
10.9.コロンビアのスパークプラグ市場展望
10.9.1.金額別市場規模
10.9.2.製品タイプ別市場規模・予測
10.9.3.材料別市場規模・予測
10.9.4.用途別市場規模・予測
10.9.5.流通チャネル別市場規模・予測
11.中東・アフリカのスパークプラグ市場展望
11.1.金額別市場規模
11.2.国別市場シェア
11.3.市場規模および予測、製品タイプ別
11.4.市場規模・予測：素材別
11.5.市場規模・予測：用途別
11.6.市場規模・予測：流通チャネル別
11.7.UAEスパークプラグ市場の展望
11.7.1.市場規模：金額別
11.7.2.製品タイプ別市場規模・予測
11.7.3.素材別市場規模・予測
11.7.4.用途別市場規模・予測
11.7.5.流通チャネル別市場規模・予測
11.8.サウジアラビアのスパークプラグ市場展望
11.8.1.金額別市場規模
11.8.2.製品タイプ別市場規模・予測
11.8.3.素材別市場規模・予測
11.8.4.用途別市場規模・予測
11.8.5.流通チャネル別市場規模・予測
11.9.南アフリカのスパークプラグ市場展望
11.9.1.金額別市場規模
11.9.2.製品タイプ別市場規模および予測
11.9.3.素材別市場規模・予測
11.9.4.用途別市場規模・予測
11.9.5.流通チャネル別市場規模・予測
12.競争環境
12.1.競合ダッシュボード
12.2.主要企業の事業戦略
12.3.主要プレーヤーの市場シェアの洞察と分析、2022年
12.4.主要プレーヤーの市場ポジショニングマトリックス
12.5.ポーターの5つの力
12.6.会社概要
12.6.1.株式会社デンソー
12.6.1.1.会社概要
12.6.1.2.会社概要
12.6.1.3.財務ハイライト
12.6.1.4.地理的洞察
12.6.1.5.事業セグメントと業績
12.6.1.6.製品ポートフォリオ
12.6.1.7.主要役員
12.6.1.8.戦略的な動きと展開
12.6.2.ロバート・ボッシュGmbH
12.6.3.ヴァレオS.A.
12.6.4.テネコ・インク
12.6.5.株式会社ニテラ
12.6.6.ホリーパフォーマンス
12.6.7.ボルグワーナー
12.6.8.ゼネラルモーターズ
12.6.9.マレリ・ヨーロッパS.p.A.
12.6.10.Hella KGaA Hueck & Co.
12.6.11.ウノ・ミンダ・リミテッド
12.6.12.テネコ
12.6.13.三菱電機株式会社
12.6.14.カミンズ
12.6.15.威海動力有限公司
12.6.16.フォード・モーター
12.6.17.HKS Co.Ltd.
13.戦略的提言
14.付録
14.1.よくある質問
14.2.注意事項
14.3.関連レポート
15.免責事項

図表一覧

図1：スパークプラグの世界市場規模（億ドル）、地域別、2023年・2029年
図2: 市場魅力度指数(2029年地域別)
図3: 市場魅力度指数, セグメント別 2029年
図4：スパークプラグの世界市場規模（金額ベース）（2018年、2023年、2029F）（単位：億米ドル
図5：スパークプラグの世界市場地域別シェア（2023年）
図6：北米スパークプラグ市場規模：金額（2018年、2023年、2029年）（単位：億米ドル）
図7：北米スパークプラグ市場国別シェア（2023年）
図8：米国のスパークプラグ市場規模：金額（2018年、2023年、2029年）（単位：億米ドル）
図9：カナダのスパークプラグ市場規模：金額(2018年、2023年、2029F)（単位：億米ドル）
図10：メキシコのスパークプラグ市場規模：金額(2018年、2023年&2029F)（単位：億米ドル）
図11: 欧州スパークプラグ市場規模：金額(2018年、2023年&2029F)（単位：億米ドル）
図12: 欧州スパークプラグ市場国別シェア(2023年)
図13：ドイツのスパークプラグ市場規模：金額（2018年、2023年、2029F）（単位：億米ドル）
図14：イギリスのスパークプラグ市場規模：金額(2018年、2023年、2029F)（単位：億米ドル）
図15：フランスのスパークプラグ市場規模：金額(2018年、2023年&2029F)（単位：億米ドル）
図16：イタリアのスパークプラグ市場規模：金額(2018年、2023年&2029F)（単位：億米ドル）
図17：スペインのスパークプラグ市場規模：金額（2018年、2023年、2029F）（単位：億米ドル）
図18：ロシアのスパークプラグ市場規模：金額（2018年、2023年、2029年）（単位：億米ドル）
図19：アジア太平洋地域のスパークプラグ市場規模：金額（2018年、2023年、2029年）（単位：億米ドル）
図20：アジア太平洋地域のスパークプラグの国別市場シェア（2023年）
図21：中国スパークプラグ市場規模：金額（2018年、2023年、2029F）（単位：億米ドル）
図22：日本のスパークプラグ市場規模：金額(2018年、2023年、2029F)（単位：億米ドル）
図23：インドのスパークプラグ市場規模：金額（2018年、2023年、2029年）（単位：億米ドル）
図24：オーストラリアのスパークプラグ市場規模：金額（2018年、2023年、2029F）（単位：億米ドル）
図25：韓国のスパークプラグ市場規模：金額(2018年、2023年、2029F)（単位：億米ドル）
図26：南米のスパークプラグ市場規模：金額（2018年、2023年、2029F）（単位：億米ドル）
図27：南米のスパークプラグ市場国別シェア（2023年）
図28：ブラジルのスパークプラグ市場規模：金額（2018年、2023年、2029年）（単位：億米ドル）
図29: アルゼンチンアルゼンチン スパークプラグ市場規模：金額(2018年、2023年、2029F)（単位：億米ドル）
図30: コロンビアコロンビアのスパークプラグ市場規模：金額(2018年、2023年、2029F)（単位：億米ドル）
図31：中東・アフリカのスパークプラグ市場規模：金額（2018年、2023年、2029年）（単位：億米ドル）
図32：中東・アフリカのスパークプラグ市場国別シェア(2023年)
図33：UAEのスパークプラグ市場規模：金額（2018年、2023年、2029年） (単位：億米ドル)
図34：サウジアラビアのスパークプラグ市場規模：金額(2018年、2023年、2029F)（単位：億米ドル）
図35：南アフリカのスパークプラグ市場規模：金額(2018年、2023年、2029F) (単位：億米ドル)
図36：上位5社の競争ダッシュボード（2023年
図 37：主要企業の市場シェア（2023年
図38：スパークプラグ世界市場のポーターの5つの力

表一覧

表1：スパークプラグの世界市場スナップショット（セグメント別）（2023年・2029年）（単位：億米ドル
表2：スパークプラグ市場の影響要因（2023年
表3：上位10カ国の経済スナップショット（2022年
表4：その他の主要国の経済スナップショット（2022年
表5：外国通貨から米ドルへの平均為替レート
表6：スパークプラグの世界市場規模・地域別予測（2018〜2029F）（単位：億米ドル）
表7：スパークプラグの世界市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表8：スパークプラグの世界市場規模・予測：素材別（2018〜2029F）（単位：億米ドル）
表9：スパークプラグの世界市場規模・予測：用途別（2018〜2029F）（単位：億米ドル）
表10：スパークプラグの世界市場規模・予測：流通経路別（2018～2029F）（単位：億米ドル）
表11：北米のスパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表12：北米のスパークプラグ市場規模・予測：素材別（2018〜2029F）（単位：億米ドル）
表13：北米のスパークプラグ市場規模・予測：用途別（2018〜2029F）（単位：億米ドル）
表14：北米スパークプラグ市場規模・予測：流通経路別（2018～2029F）（単位：億米ドル）
表15：米国のスパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表16：米国のスパークプラグ市場規模・予測：素材別（2018年～2029F）（単位：億米ドル）
表17：米国のスパークプラグ市場規模・用途別予測（2018〜2029F）（単位：億米ドル）
表18：米国のスパークプラグ市場規模・予測：流通経路別（2018～2029F）（単位：億米ドル）
表19：カナダのスパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表20：カナダのスパークプラグ市場規模・予測：素材別（2018～2029F）（単位：億米ドル）
表21：カナダのスパークプラグ市場規模・予測：用途別（2018～2029F）（単位：億米ドル）
表22：カナダのスパークプラグ市場規模・予測：流通経路別（2018～2029F）（単位：億米ドル）
表23：メキシコのスパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表24：メキシコのスパークプラグ市場規模・予測：素材別（2018～2029F）（単位：億米ドル）
表25：メキシコのスパークプラグ市場規模・予測：用途別（2018～2029F）（単位：億米ドル）
表26：メキシコのスパークプラグ市場規模・予測：流通経路別（2018～2029F）（単位：億米ドル）
表27：欧州スパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表28：欧州スパークプラグ市場規模・予測：素材別（2018～2029F）（単位：億米ドル）
表29：欧州スパークプラグ市場規模・予測：用途別（2018～2029F）（単位：億米ドル）
表30：欧州スパークプラグ市場規模・予測：流通経路別（2018～2029F）（単位：億米ドル）
表31：ドイツのスパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表32：ドイツのスパークプラグ市場規模・予測：素材別（2018～2029F）（単位：億米ドル）
表33：ドイツのスパークプラグ市場規模・予測：用途別（2018～2029F）（単位：億米ドル）
表34：ドイツのスパークプラグ市場規模・予測：流通経路別（2018～2029F）（単位：億米ドル）
表35：イギリス スパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表36：イギリスのスパークプラグ市場規模・予測：素材別（2018～2029F）（単位：億米ドル）
表37：イギリス スパークプラグ市場規模・予測：用途別（2018～2029F） （単位：億米ドル）
表 38：イギリスのスパークプラグ市場規模・予測：流通経路別（2018～2029F）（単位：億米ドル）
表39：フランス スパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表40：フランス スパークプラグ市場規模・予測：素材別（2018～2029F）（単位：億米ドル）
表41：フランス スパークプラグ市場規模・予測：用途別（2018～2029F）（単位：億米ドル）
表42: スパークプラグフランス スパークプラグ市場規模・予測：流通経路別（2018～2029F）（単位：億米ドル）
表43：イタリア スパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表44：イタリアのスパークプラグ市場規模・予測：素材別（2018～2029F）（単位：億米ドル）
表45：イタリアのスパークプラグ市場規模・予測：用途別（2018～2029F）（単位：億米ドル）
表46：イタリアのスパークプラグ市場規模・予測：流通経路別（2018～2029F）（単位：億米ドル）
表47：スペインのスパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表48：スペインのスパークプラグ市場規模・予測：素材別（2018～2029F）（単位：億米ドル）
表49：スペインのスパークプラグの市場規模・用途別予測 (2018〜2029F) (単位：億米ドル)
表50：スペインのスパークプラグ市場規模・予測：流通経路別（2018～2029F）（単位：億米ドル）
表51：ロシアのスパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表52：ロシアのスパークプラグ市場ロシア スパークプラグ市場規模・予測：素材別（2018～2029F） （単位：億米ドル）
表53：ロシア スパークプラグ市場規模・予測：用途別（2018～2029F） （単位：億米ドル）
表54：ロシア スパークプラグ市場規模・予測：流通経路別 (2018～2029F)（単位：億米ドル）
表55：アジア太平洋地域のスパークプラグ市場規模・予測：製品タイプ別（2018〜2029F）（単位：億米ドル）
表56：アジア太平洋地域のスパークプラグ市場規模・予測：素材別（2018〜2029F）（単位：億米ドル）
表57：アジア太平洋地域のスパークプラグ市場規模・予測：用途別（2018～2029F）（単位：億米ドル）
表58：アジア太平洋地域のスパークプラグ市場規模・予測：流通経路別（2018～2029F）（単位：億米ドル）
表59：中国スパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表60：中国スパークプラグ市場規模・予測：素材別（2018～2029F）（単位：億米ドル）
表61：中国スパークプラグ市場規模・予測：用途別（2018～2029F）（単位：億米ドル）
表62：中国スパークプラグ市場規模・予測：流通チャネル別（2018～2029F）（単位：億米ドル）
表63：日本スパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表64：日本のスパークプラグ市場規模・予測：素材別（2018～2029F）（単位：億米ドル）
表65：日本のスパークプラグ市場規模・予測：用途別（2018～2029F）（単位：億米ドル）
表 66：日本のスパークプラグ市場規模・予測：流通チャネル別（2018～2029F）（単位：億米ドル）
表67：インドのスパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表68：インドのスパークプラグ市場規模・予測：素材別（2018～2029F）（単位：億米ドル）
表69：インドのスパークプラグ市場規模・予測：用途別（2018～2029F） （単位：億米ドル）
表70：インドのスパークプラグ市場規模・予測：流通経路別（2018～2029F）（単位：億米ドル）
表71：オーストラリア スパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表72：オーストラリア スパークプラグ市場規模・予測：素材別（2018～2029F）（単位：億米ドル）
表73：オーストラリアのスパークプラグ市場規模・予測オーストラリア スパークプラグ市場規模・予測：用途別（2018～2029F） （単位：億米ドル）
表74：オーストラリアのスパークプラグ市場規模・予測：流通経路別（2018～2029F）（単位：億米ドル）
表 75：韓国 スパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表 76：韓国スパークプラグ市場規模・予測：素材別（2018～2029F）（単位：億米ドル）
表77：韓国スパークプラグ市場規模・予測：用途別（2018～2029F）（単位：億米ドル）
表78：韓国スパークプラグ市場規模・予測：流通経路別（2018～2029F）（単位：億米ドル）
表 79：南米のスパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表80：南米のスパークプラグ市場規模・予測：素材別（2018～2029F）（単位：億米ドル）
表81：南米のスパークプラグ市場規模・予測：用途別（2018～2029F）（単位：億米ドル）
表82：南米のスパークプラグ市場規模・予測：流通経路別（2018～2029F）（単位：億米ドル）
表83：ブラジルスパークプラグの市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表84：ブラジルスパークプラグの市場規模・予測：素材別（2018～2029F）（単位：億米ドル）
表85：スパークプラグのブラジル市場規模・用途別予測 (2018〜2029F) (単位：億米ドル)
表86：ブラジルスパークプラグの市場規模・予測：流通経路別（2018～2029F）（単位：億米ドル）
表87：アルゼンチンのスパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表88：アルゼンチンのスパークプラグ市場規模・予測：素材別（2018～2029F）（単位：億米ドル）
表89：アルゼンチンのスパークプラグ市場規模・予測：用途別（2018～2029F）（単位：億米ドル）
表90：アルゼンチンのスパークプラグ市場規模・予測アルゼンチンのスパークプラグ市場規模・予測：流通経路別（2018～2029F）（単位：億米ドル）
表91：コロンビアのスパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表92：コロンビアのスパークプラグ市場規模・予測：素材別（2018～2029F）（単位：億米ドル）
表93：コロンビアのスパークプラグ市場規模・予測：用途別（2018～2029F）（単位：億米ドル）
表94：コロンビアのスパークプラグ市場規模・予測コロンビアのスパークプラグ市場規模・予測：流通経路別（2018～2029F）（単位：億米ドル）
表95：中東・アフリカのスパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表96：中東・アフリカのスパークプラグ市場中東およびアフリカのスパークプラグ市場規模・予測：素材別（2018～2029F）（単位：億米ドル）
表 97：中東およびアフリカのスパークプラグ市場規模・予測：用途別（2018～2029F）（単位：億米ドル）
表 98：中東およびアフリカのスパークプラグ市場規模・予測：流通経路別（2018～2029F）（単位：億米ドル）
表99：UAEのスパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表100：UAEのスパークプラグ市場規模・予測：素材別（2018～2029F）（単位：億米ドル）
表101：UAEスパークプラグの市場規模・用途別予測（2018～2029F）（単位：億米ドル）
表102：UAEのスパークプラグ市場規模・予測：流通経路別（2018～2029F）（単位：億米ドル）
表103：サウジアラビアのスパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表104：サウジアラビアのスパークプラグ市場規模・予測：素材別（2018～2029F）（単位：億米ドル）
表105：サウジアラビアのスパークプラグ市場規模・用途別予測(2018～2029F)(単位：億米ドル)
表106：サウジアラビアのスパークプラグ市場規模・予測：流通経路別（2018～2029F）（単位：億米ドル）
表107：南アフリカのスパークプラグ市場規模・予測：製品タイプ別（2018～2029F）（単位：億米ドル）
表108：南アフリカのスパークプラグ市場規模・予測：素材別（2018～2029F）（単位：億米ドル）
表109：南アフリカのスパークプラグ市場規模・予測：用途別（2018～2029F）（単位：億米ドル）
表110：南アフリカのスパークプラグ市場規模・予測：流通経路別（2018年～2029F）（単位：億米ドル）

Spark plugs are a crucial component of any gasoline-powered engine, be it in a car, motorcycle, lawnmower, or generator. These small yet vital parts are responsible for igniting the compressed fuel-air mixture within the engine's cylinders, initiating the combustion process that powers the vehicle. The inception of the spark plug can be traced back to the early 19th century, coinciding with the emergence of internal combustion engines. Pioneered by the likes of Étienne Lenoir and Nikolaus Otto, these engines relied on igniting a mixture of air and fuel to drive pistons and produce mechanical work. However, the challenge lay in consistently igniting this volatile concoction. Enter the spark plug. In 1860, French engineer Eugène Massenez filed the first patent for a spark plug. This rudimentary design comprised a simple electrode system that generated sparks when connected to an external power source. Over the decades, advancements in materials, design, and manufacturing processes refined the spark plug into the compact, efficient component. At its core, a spark plug is a deceptively simple device, consisting of a threaded metal shell, an insulating ceramic center, and a conductive electrode. The shell serves as housing, providing structural support and facilitating installation into the engine cylinder head. Meanwhile, the ceramic insulator prevents electrical leakage and thermal damage, ensuring the spark occurs precisely at the electrode tip. The electrode itself is divided into two components including the center electrode and the ground electrode. During operation, high-voltage electricity flows from the ignition coil through the center electrode, creating a strong electric field at the tip. When this field surpasses the dielectric strength of the surrounding air-fuel mixture, a spark jumps the gap between the electrodes, igniting the mixture and initiating combustion. As automotive technology continues to evolve, so does the spark plug. Innovations in materials science, such as the integration of ceramic coatings and advanced alloys, promise to enhance durability and performance further. Additionally, emerging propulsion technologies, such as electric vehicles, challenge the conventional combustion paradigm, raising questions about the spark plug's role in the age of electrification. Like any mechanical component, spark plugs require periodic maintenance to ensure peak performance and longevity. Routine inspection and replacement, typically recommended every 30,000 to 100,000 miles depending on driving conditions and manufacturer guidelines, can prevent issues such as misfiring, poor fuel economy, and engine hesitation. Diagnosing spark plug-related problems often involves examining their condition and appearance. Fouling, characterized by a buildup of deposits on the electrodes, can impede spark formation and hinder combustion. Conversely, overheating may cause electrode erosion and compromise ignition efficiency. By identifying these telltale signs, technicians can prescribe appropriate remedies, whether it be cleaning, gapping, or replacement.

According to the research report, “Global Spark Plug Market Outlook, 2029” published by Bonafide Research, the market is anticipated to cross USD 5 Billion by 2029, increasing from USD 3.95 Billion in 2023. The market is expected to grow with 5.08% CAGR by 2024-29. The automotive industry, a primary consumer of spark plugs, continues to expand globally. Rising demand for passenger cars, commercial vehicles, and off-road machinery across various regions is driving the need for spark plugs. As the global population grows and urbanization accelerates, the number of vehicles on the road is increasing. This growth in the vehicle fleet translates to a higher demand for spark plugs, as each internal combustion engine requires these essential components for ignition. Spark plugs are wear-and-tear components that require periodic replacement. As vehicle owners and fleet operators prioritize maintenance to ensure optimal engine performance and fuel efficiency, the demand for replacement spark plugs remains steady. Ongoing advancements in spark plug technology, such as the development of long-life platinum and iridium electrodes, are expanding the market. These innovative spark plugs offer improved durability, extended service intervals, and enhanced ignition performance, appealing to both consumers and automotive manufacturers. Globally, governments are imposing increasingly stringent emissions regulations to combat air pollution and mitigate climate change. To comply with these regulations, automakers are investing in advanced engine technologies, including high-efficiency combustion systems that rely on high-performance spark plugs for optimal ignition and emissions control. With growing concerns about fuel consumption and environmental impact, there's a heightened emphasis on improving fuel efficiency in vehicles. Spark plug manufacturers are responding by developing innovative designs and materials that enhance combustion efficiency, thereby contributing to better fuel economy. Emerging markets, particularly in Asia-Pacific, Latin America, and Africa, are experiencing rapid industrialization and urbanization. This growth is accompanied by increased demand for automobiles and associated components, including spark plugs, as more people gain access to personal transportation.


Market Drivers

• Technological Advancements: Continuous innovation in spark plug technology remains a major driver for the market. Advancements such as the development of iridium and platinum-tipped electrodes, as well as improvements in ceramic insulation materials, have led to more durable and efficient spark plugs. These technological enhancements not only improve engine performance and fuel efficiency but also extend service intervals, driving demand from both OEMs and aftermarket customers.
• Stringent Emission Regulations: Tightening emissions standards worldwide are compelling automotive manufacturers to adopt advanced engine technologies to reduce pollutants and greenhouse gas emissions. Spark plugs play a critical role in optimizing combustion efficiency, which directly impacts emissions levels. As regulations become more stringent, there is increased demand for spark plugs that can facilitate cleaner and more efficient combustion, thereby driving market growth.

Market Challenges

• Electric Vehicle Adoption: The transition towards electric vehicles (EVs) poses a significant challenge to the spark plug market. While traditional internal combustion engine vehicles remain dominant, the long-term trend towards electrification could potentially shrink the market for spark plugs. As EV adoption increases, particularly in passenger cars, the demand for spark plugs may decline, posing a challenge for manufacturers to diversify their product offerings or pivot towards other market segments.
• Competitive Pressure and Price Sensitivity: The spark plug market is highly competitive, with numerous manufacturers vying for market share. Price sensitivity among consumers, particularly in the aftermarket segment, poses a challenge for manufacturers to maintain profitability while offering competitive pricing. Additionally, the presence of counterfeit spark plugs in the market further intensifies competition and undermines the reputation of genuine manufacturers.

Market Trends

• Focus on Fuel Efficiency: With a growing emphasis on fuel efficiency and environmental sustainability, there is a trend towards spark plugs that enhance combustion efficiency and optimize engine performance. Manufacturers are developing spark plugs with advanced electrode materials, optimized designs, and precise manufacturing processes to achieve higher fuel economy and lower emissions.
• Integration of Sensor Technology: An emerging trend in the spark plug market is the integration of sensor technology for real-time engine monitoring and diagnostics. Smart spark plugs equipped with sensors can provide valuable data on combustion dynamics, spark plug health, and engine performance. This trend aligns with the broader shift towards connected vehicles and Industry 4.0, offering opportunities for improved vehicle diagnostics, predictive maintenance, and overall efficiency.

Copper is leading in the spark plug market due to its exceptional electrical conductivity, which enables efficient spark generation and reliable ignition in a wide range of operating conditions.

Copper's dominance in the spark plug market can be attributed to its exceptional electrical conductivity, which stands as the cornerstone of efficient spark generation and reliable ignition across a broad spectrum of operating conditions. Unlike other metals, copper possesses an extraordinary ability to conduct electricity, allowing for the rapid and consistent flow of electrical current. This fundamental property is paramount in spark plug design, as it directly influences the spark formation process. When subjected to high voltage from the ignition system, the electrodes in a spark plug create an electric field across the spark gap. In this crucial moment, the conductivity of the electrode material determines how effectively the electric charge can traverse the gap and initiate a spark. Copper's high electrical conductivity ensures that the spark plug can reliably generate a strong spark, even in demanding scenarios such as cold starts, high engine speeds, or heavy loads. In these conditions, where the air-fuel mixture may be less conducive to ignition, having an electrode material that efficiently channels electrical energy becomes paramount. Additionally, copper's malleability and thermal conductivity properties play a vital role in spark plug performance. The softness of copper allows for easy shaping and forming of the electrode, ensuring precise gap alignment and consistent spark discharge. Furthermore, copper's ability to dissipate heat effectively helps prevent electrode overheating, thereby extending the lifespan of the spark plug. Moreover, copper electrodes offer a cost-effective solution for both original equipment manufacturers (OEMs) and aftermarket consumers. Compared to alternative materials like platinum or iridium, copper is relatively abundant and inexpensive to produce, making it an economically viable choice for mass-produced spark plugs. This affordability makes copper spark plugs accessible to a wide range of vehicles and applications, from economy cars to high-performance engines.

The automotive application dominates the spark plug market due to the sheer volume of internal combustion engine vehicles worldwide, which require spark plugs for ignition, driving significant demand.

The automotive sector's supremacy in the spark plug market stems from the overwhelming prevalence of internal combustion engine vehicles on roads globally. From passenger cars to commercial trucks and everything in between, internal combustion engines remain the primary power source for the majority of vehicles. These engines rely on spark plugs to initiate the combustion process by igniting the air-fuel mixture within the cylinders. Given the colossal number of vehicles on the road – estimated to be over a billion worldwide – the demand for spark plugs is correspondingly substantial. Virtually every gasoline-powered vehicle, whether powered by traditional engines or hybrid systems, relies on spark plugs for ignition, underscoring the automotive industry's pivotal role in driving demand for these essential components. Moreover, the automotive sector's dominance extends beyond sheer numbers to encompass a diverse range of applications and vehicle types. From compact city cars to heavy-duty trucks and off-road machinery, the automotive industry encompasses a vast spectrum of vehicles, each with its own unique requirements for spark plugs. For example, high-performance sports cars may demand spark plugs optimized for extreme conditions and enhanced ignition performance, while commercial fleets prioritize durability and longevity to minimize maintenance costs. Additionally, the emergence of alternative fuel vehicles, such as compressed natural gas (CNG) or liquefied petroleum gas (LPG) vehicles, further expands the scope of automotive applications for spark plugs. Furthermore, ongoing advancements in automotive technology, including the pursuit of higher fuel efficiency, reduced emissions, and enhanced performance, drive continuous innovation in spark plug design and materials. As automakers strive to meet increasingly stringent regulatory standards and consumer demands, they rely on spark plug manufacturers to develop solutions that optimize combustion efficiency, minimize emissions, and improve overall engine performance. This symbiotic relationship between the automotive industry and spark plug manufacturers underscores the automotive sector's central position in shaping the trajectory of the spark plug market.

Original Equipment Manufacturers (OEMs) lead the spark plug market due to their direct integration of spark plugs into new vehicles during production, generating significant demand and setting industry standards.

The dominance of OEMs in the spark plug market can be attributed to their pivotal role in the automotive industry's supply chain and vehicle manufacturing process. OEMs are responsible for the direct integration of spark plugs into new vehicles during assembly, making them the primary source of demand for spark plugs. When vehicles roll off the production line, they come equipped with spark plugs installed by the OEM, setting the standard for quality, compatibility, and performance. One of the key reasons OEMs lead the spark plug market is their ability to establish long-term partnerships with automotive manufacturers. Through these partnerships, OEMs work closely with automakers to develop spark plugs tailored to specific engine designs, performance requirements, and emission standards. This collaboration ensures that spark plugs meet stringent quality standards and seamlessly integrate with the vehicle's engine management system, optimizing combustion efficiency and reliability. Furthermore, OEMs benefit from economies of scale and production efficiencies, enabling them to produce spark plugs in large volumes at competitive prices. As automotive production volumes continue to rise globally, OEMs capitalize on this demand by supplying spark plugs directly to vehicle assembly lines. By embedding spark plugs into new vehicles during production, OEMs create a continuous cycle of demand, driving significant sales volume and market share. Additionally, OEMs wield significant influence over aftermarket sales channels, further bolstering their dominance in the spark plug market. Many vehicle owners prefer to purchase OEM-approved spark plugs for replacement, viewing them as the most reliable and compatible option for their vehicles. OEM-branded spark plugs are often available through authorized dealerships and automotive parts retailers, reinforcing their position as the preferred choice among consumers seeking quality and authenticity. Moreover, OEMs invest heavily in research and development to innovate and improve spark plug technology continuously. By staying at the forefront of advancements in materials, design, and manufacturing processes, OEMs ensure that their spark plugs remain at the cutting edge of performance and reliability. This commitment to innovation solidifies their leadership position in the market and reinforces their reputation for excellence among automakers and consumers alike.

Hot spark plugs lead the spark plug market due to their ability to self-clean and prevent fouling, making them suitable for a wide range of engine types and operating conditions.

Hot spark plugs have emerged as leaders in the spark plug market due to their unique thermal characteristics and versatility in various engine applications. Unlike cold spark plugs, which have a higher heat range and are designed for engines operating at lower temperatures, hot spark plugs are engineered to reach higher temperatures quickly and maintain optimal operating temperatures during normal engine operation. This feature is particularly advantageous in engines that operate under high loads, extended periods of idling, or in cold climates, where maintaining adequate combustion chamber temperatures is crucial for efficient fuel combustion and engine performance. One of the primary reasons hot spark plugs lead the market is their ability to self-clean and resist fouling. As engines operate, combustion by-products, such as carbon deposits and oil residues, can accumulate on the spark plug electrodes, hindering spark formation and reducing ignition efficiency. Hot spark plugs, with their higher operating temperatures, are better equipped to burn off these deposits, preventing fouling and ensuring consistent spark performance over extended periods. This self-cleaning capability is especially beneficial in stop-and-go driving conditions, where frequent engine starts and stops can lead to increased fouling. Moreover, hot spark plugs are well-suited for a wide range of engine types and operating conditions, making them a popular choice among vehicle manufacturers and aftermarket consumers alike. Whether used in high-performance engines, everyday commuter vehicles, or industrial equipment, hot spark plugs offer reliable ignition performance and durability across diverse applications. Their versatility allows OEMs to standardize spark plug specifications across vehicle models, simplifying inventory management and production processes. Furthermore, hot spark plugs play a crucial role in emissions reduction efforts by promoting efficient fuel combustion and minimizing unburned hydrocarbon emissions. By ensuring complete combustion of the air-fuel mixture, hot spark plugs contribute to cleaner exhaust emissions and improved environmental performance. As regulatory standards for vehicle emissions continue to tighten worldwide, the demand for spark plugs that can facilitate optimal combustion and emissions control is expected to increase, further driving the market for hot spark plugs.

The Asia-Pacific region leads the spark plug market due to its burgeoning automotive industry, rapid industrialization, and increasing demand for vehicles across diverse sectors.

The Asia-Pacific region has emerged as a frontrunner in the spark plug market, propelled by several key factors that collectively drive significant demand for these essential engine components. At the heart of this dominance lies the region's dynamic and rapidly expanding automotive industry. With a growing population, rising disposable incomes, and urbanization trends driving the need for personal transportation, the demand for vehicles in Asia-Pacific has surged in recent years. From passenger cars and motorcycles to commercial trucks and off-road machinery, the automotive sector in countries like China, India, Japan, South Korea, and Southeast Asian nations has witnessed remarkable growth, fueling the demand for spark plugs. Furthermore, Asia-Pacific's rapid industrialization and economic development have led to increased adoption of vehicles across various sectors, including manufacturing, construction, agriculture, and logistics. As industries expand and infrastructure projects proliferate, the demand for commercial vehicles and heavy machinery equipped with internal combustion engines has soared. These vehicles rely on spark plugs for ignition, further bolstering the market for spark plugs in the region. Moreover, the Asia-Pacific region is home to several prominent automotive manufacturers and OEMs, which play a central role in driving demand for spark plugs. With production facilities strategically located across the region, these OEMs cater to both domestic and export markets, producing millions of vehicles each year. The direct integration of spark plugs into new vehicles during the manufacturing process creates a continuous cycle of demand, sustaining the spark plug market's growth in Asia-Pacific. Additionally, government initiatives aimed at promoting clean and efficient transportation solutions are driving the adoption of advanced engine technologies, including high-efficiency combustion systems that rely on high-performance spark plugs. Regulatory standards for vehicle emissions are becoming increasingly stringent across Asia-Pacific, prompting automakers to invest in innovative solutions to meet compliance requirements. This emphasis on emissions reduction and fuel efficiency further amplifies the demand for spark plugs that can optimize combustion and minimize pollutants. Furthermore, Asia-Pacific's leading role in spark plug production and manufacturing contributes to its dominance in the market. Several major spark plug manufacturers have established production facilities and distribution networks in the region to cater to the growing demand from both OEMs and aftermarket customers. This localization of manufacturing operations enables efficient supply chain management and timely delivery of spark plugs to meet the needs of diverse markets within Asia-Pacific and beyond.



Recent Developments

• In July 2023, Denso ceramic products, including air-fuel ratio sensors, O2 sensors, and spark plugs, were first acquired by NGK. Denso will take over the development, production, and sales of exhaust sensors and spark plugs for internal combustion engines in Japan and other countries.
• In June 2023, starting in the current MAN E3262, E3268, E0836, and E0834 series turbocharged natural gas engines, MAN Engines started offering pre-chamber spark plugs matched to the appropriate combustion chamber as an option and MAN E3872 as a requirement. The company claims that pre-chamber plugs for natural gas engines that are turbocharged will boost the efficiency of hydrogen admixture by as much as 20% per volume.
• July 2023, MAN Engines started offering pre-chamber spark plugs adapted to the respective combustion chamber to all turbocharged natural gas engines of the current MAN E3262, E3268, E0836, and E0834 series as an option, as well as MAN E3872 as obligatory. According to the company, pre-chamber plug for turbocharged natural gas engines will increase the efficiency of hydrogen admixture by up to 20% by volume.
• July 2023, NGK initiated the acquisition of Denso ceramic products such as spark plugs, O2 sensors, and air-fuel ratio sensors to NGK. Among Denso's internal combustion engine products, it will acquire the development, manufacturing, and sales functions of spark plugs and exhaust sensors in Japan and overseas.

Considered in this report
• Historic year: 2018
• Base year: 2023
• Estimated year: 2024
• Forecast year: 2029

Aspects covered in this report
• Spark Plug market Outlook with its value and forecast along with its segments
• Various drivers and challenges
• On-going trends and developments
• Top profiled companies
• Strategic recommendation

By Materials
• Copper
• Platinum
• Iridium
• Others

By Application
• Automotive
• Marine
• Aerospace
• Others

By Distribution Channel
• OEM
• Aftermarket

By Product Type
• Hot Spark Plug
• Cold Spark Plug

The approach of the report:
This report consists of a combined approach of primary and secondary research. Initially, secondary research was used to get an understanding of the market and list the companies that are present in it. The secondary research consists of third-party sources such as press releases, annual reports of companies, and government-generated reports and databases. After gathering the data from secondary sources, primary research was conducted by conducting telephone interviews with the leading players about how the market is functioning and then conducting trade calls with dealers and distributors of the market. Post this; we have started making primary calls to consumers by equally segmenting them in regional aspects, tier aspects, age group, and gender. Once we have primary data with us, we can start verifying the details obtained from secondary sources.

Intended audience
This report can be useful to industry consultants, manufacturers, suppliers, associations, and organizations related to the Spark Plug industry, government bodies, and other stakeholders to align their market-centric strategies. In addition to marketing and presentations, it will also increase competitive knowledge about the industry.
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